02971nas a2200409 4500008004100000022001400041245012000055210006900175260001700244300001100261490000700272520180300279653001602082653000902098653001902107653002102126653001502147653002802162653001102190653001502201653002902216653001102245653003102256653000902287653002402296653002402320653001702344653001202361100002002373700001802393700002502411700002002436700002102456700002902477700002002506856003502526 2003 eng d a0251-535000aA prospective analysis of risk factors for white matter disease in the brain stem: the Cardiovascular Health Study.0 aprospective analysis of risk factors for white matter disease in c2003 Sep-Oct a275-820 v223 a
BACKGROUND AND PURPOSE: White matter disease (WMD) in the brain stem may be a predictor of poor clinical outcome, independent of WMD in the periventricular and subcortical areas of the brain. Many cardiovascular risk factors such as older age, hypertension, and smoking have been suggested as risk factors for WMD in the periventricular and subcortical areas of the brain. However, no epidemiologic study has examined the associations between cardiovascular risk factors and WMD in the brain stem.
METHODS: A total of 789 participants, aged 65 years or older, from the Cardiovascular Health Study constituted the present study population. WMD, defined as hyperintensive lesions on magnetic resonance imaging (MRI), in the brain stem was measured in 1992/1993 and 1997/1998.
RESULTS: Of the 789 participants, 212 (26.9%) had WMD in the brain stem in 1997/1998. In multivariate logistic regression analysis, the presence of WMD in the brain stem in 1997/1998 was significantly associated with several variables measured in 1992/1993: an increase by 5 years of age (OR = 1.51, 95% CI: 1.25-1.83), a 10-pack-years increase in smoking (OR = 1.12, 95% CI: 1.04-1.21), a 0.1-liter increase in first-second forced expiratory volume (OR = 0.95, 95% CI: 0.92-0.99), a 1 micromol/l increase in fibrinogen level (OR = 1.13, 95% CI: 1.03-1.23), and MRI infarction (OR = 2.58, 95% CI: 1.78-3.74). Excluding those (n = 167) with WMD in the brain stem in 1992/1993, the pattern remained. Hypertension was not associated with WMD in the brain stem.
CONCLUSIONS: Increased age, smoking, lower forced expiratory volume, increased fibrinogen level, and MRI infarction, but not hypertension, may be independent risk factors for WMD in the brain stem in older adults.
10aAge Factors10aAged10aBrain Diseases10aBrain Infarction10aBrain Stem10aCardiovascular Diseases10aFemale10aFibrinogen10aForced Expiratory Volume10aHumans10aMagnetic Resonance Imaging10aMale10aProspective Studies10aRegression Analysis10aRisk Factors10aSmoking1 aDing, Jingzhong1 aNieto, Javier1 aBeauchamp, Norman, J1 aLongstreth, W T1 aManolio, Teri, A1 aHetmanski, Jacqueline, B1 aFried, Linda, P uhttps://chs-nhlbi.org/node/74402539nas a2200397 4500008004100000022001400041245009000055210006900145260001600214300001000230490000700240520140100247653000901648653001201657653001001669653001501679653003001694653002301724653002201747653001101769653003101780653002001811653002801831653003001859653002601889653001701915100002001932700001801952700002501970700002201995700002102017700002902038700002002067700001902087856003502106 2004 eng d a0161-810500aSleep-disordered breathing and white matter disease in the brainstem in older adults.0 aSleepdisordered breathing and white matter disease in the brains c2004 May 01 a474-90 v273 aSTUDY OBJECTIVES: To examine whether sleep-disordered breathing is associated with white matter disease in the brainstem.
DESIGN: A population-based longitudinal study.
SETTING: Allegheny County, PA; Sacramento County, CA; and Washington County, MD.
PATIENTS OR PARTICIPANTS: A total of 789 individuals, aged 68 years or older, drawn from the Sleep Heart Health Study.
INTERVENTIONS: N/A.
MEASUREMENTS AND RESULTS: The participants underwent home polysomnography in 1995-1998 and cerebral magnetic resonance imaging in both 1992-1993 and 1997-1998. The apnea-hypopnea index was not associated with white matter disease in the brainstem, with or without adjusting for age, sex, race, community, body mass index, smoking status, alcohol use, systolic blood pressure, and the use of antihypertensive medication. In contrast, the arousal index (number of arousals per hour of sleep) was inversely associated with brainstem white matter disease (odds ratio = 0.75 for a SD increase in the arousal index, 95% confidence interval: 0.62, 0.92).
CONCLUSIONS: The frequency of apneas and hypopneas was not associated with brainstem white matter disease in these older adults. A unique relationship with arousal frequency suggests that ischemic changes in the brainstem may be associated with arousals during sleep.
10aAged10aArousal10aBrain10aBrain Stem10aCerebrovascular Disorders10aElectrooculography10aFollow-Up Studies10aHumans10aMagnetic Resonance Imaging10aPolysomnography10aPopulation Surveillance10aSeverity of Illness Index10aSleep Apnea Syndromes10aSleep Stages1 aDing, Jingzhong1 aNieto, Javier1 aBeauchamp, Norman, J1 aHarris, Tamara, B1 aRobbins, John, A1 aHetmanski, Jacqueline, B1 aFried, Linda, P1 aRedline, Susan uhttps://chs-nhlbi.org/node/78302879nas a2200349 4500008004100000022001400041245007600055210006900131260001600200300001100216490000600227520190500233653000902138653001002147653002402157653003202181653001102213653001102224653003102235653000902266653002002275653003002295653002602325653002902351100001802380700001902398700001502417700002402432700002002456700001802476856003502494 2005 eng d a1550-938900aAssociations of sleep-disordered breathing and cerebral changes on MRI.0 aAssociations of sleepdisordered breathing and cerebral changes o c2005 Apr 15 a159-650 v13 aSTUDY OBJECTIVES: Population-based studies have demonstrated associations between sleep-disordered breathing (SDB), hypertension, and cardiovascular disease; few large-scale studies have examined associations of SDB with objective measures of cerebrovascular disease. This study tested the significance of associations of SDB with evidence of brain injury or ischemia determined by cerebral magnetic resonance imaging (MRI) studies.
DESIGN: Cross-sectional and longitudinal analyses in a nested sample of Cardiovascular Health Study participants in the Sleep Heart Health Study.
PARTICIPANTS: The 843 individuals (mean age 77, SD 4.3 years, 58% women) who had MRI studies as part of the Cardiovascular Health Study before and after polysomnography obtained as part of the Sleep Heart Health Study.
MEASUREMENTS: A 12-channel polysomnogram was used to derive indexes of sleep-disordered breathing. Repeated MRI measurements provided indexes of infarct (presence and size) and white matter disease. Logistic regression analyses were used to model MRI changes of infarct-like lesions and white matter disease as a function of age, baseline white matter grade, and indexes of central and obstructive sleep-disordered breathing.
RESULTS: Individuals who showed progression in white matter disease compared to those who did not were significantly more likely to show a Cheyne-Stokes respiration pattern and to have an increased number of central but not obstructive apneas.
CONCLUSIONS: An association between change in white matter grade and measures of central sleep apnea was demonstrated that was consistent with a causal pathway in which central sleep apnea contributes to the progression of white matter disease; alternatively, central sleep apnea may be a marker of subclinical cerebrovascular or cardiovascular disease.
10aAged10aBrain10aCerebral Infarction10aCerebrovascular Circulation10aFemale10aHumans10aMagnetic Resonance Imaging10aMale10aPolysomnography10aSeverity of Illness Index10aSleep Apnea Syndromes10aSleep Apnea, Obstructive1 aRobbins, John1 aRedline, Susan1 aErvin, Ann1 aWalsleben, Joyce, A1 aDing, Jingzhong1 aNieto, Javier uhttps://chs-nhlbi.org/node/96603520nas a2200565 4500008004100000022001400041245009200055210006900147260001300216300001100229490000700240520195400247653003102201653001602232653000902248653002202257653002202279653001402301653002802315653002002343653001902363653001602382653002802398653001102426653002202437653000902459653002502468653001802493653001902511653001102530653000902541653002302550653002702573653003202600653001802632653001702650653001802667100002002685700002102705700002202726700001902748700001802767700002402785700002002809700002802829700002302857700002002880700001802900856003602918 2009 eng d a1532-541500aLong-term function in an older cohort--the cardiovascular health study all stars study.0 aLongterm function in an older cohortthe cardiovascular health st c2009 Mar a432-400 v573 aOBJECTIVES: To evaluate shared and unique risk factors for maintaining physical and cognitive function into the ninth decade and beyond.
DESIGN: Longitudinal cohort study.
SETTING: Four U.S. communities.
PARTICIPANTS: One thousand six hundred seventy-seven participants in the Cardiovascular Health Study All Stars Study, assessed in 2005/06. Median age was 85 (range 77-102), 66.5% were women, and 16.6% were black.
MEASUREMENTS: Intact function was defined as no difficulty with any activities of daily living and a score of 80 or higher on the Modified Mini-Mental State Examination. Baseline characteristics assessed in 1992/93 included demographics, behavioral health factors, chronic disease history, subclinical disease markers, cardiovascular risk factors, and inflammatory markers. Multinomial logistic regression was used to compare risk for physical disability, cognitive impairment,and combined impairments with no functional impairment.
RESULTS: Of the 1,677 participants evaluated in both domains, 891 (53%) were functionally intact. Continuous measures of function, including the Digit Symbol Substitution Test and gait speed, showed that all groups, including the most functional, had declined over time. The functional group had less decline but also tended to have higher starting values. Functional individuals had a higher baseline health profile than those with either or cognitive impairment or both impairments combined. Women and individuals with greater weight had higher rates of physical impairment but not cognitive impairment. Risk factors common to both types of impairment included cardiovascular disease and hypertension.
CONCLUSION: Intact function was found in only approximately half of these older adults in the ninth decade and beyond. High baseline function and low vascular disease risk characterized functional aging.
10aActivities of Daily Living10aAge Factors10aAged10aAged, 80 and over10aAlzheimer Disease10aAttention10aCardiovascular Diseases10aChronic Disease10aCohort Studies10aComorbidity10aCross-Sectional Studies10aFemale10aFollow-Up Studies10aGait10aGeriatric Assessment10aHand Strength10aHealth Surveys10aHumans10aMale10aMemory, Short-Term10aMental Status Schedule10aProportional Hazards Models10aPsychometrics10aRisk Factors10aUnited States1 aNewman, Anne, B1 aArnold, Alice, M1 aSachs, Michael, C1 aIves, Diane, G1 aCushman, Mary1 aStrotmeyer, Elsa, S1 aDing, Jingzhong1 aKritchevsky, Stephen, B1 aChaves, Paulo, H M1 aFried, Linda, P1 aRobbins, John uhttps://chs-nhlbi.org/node/107502853nas a2200373 4500008004100000022001400041245013400055210006900189260001300258300001000271490000700281520177600288653003102064653001602095653002202111653001602133653002802149653001102177653002202188653001802210653001102228653001402239653000902253653002402262653001702286653001802303653001802321100002102339700002002360700001802380700002002398700002502418856003602443 2010 eng d a1758-535X00aBody weight dynamics and their association with physical function and mortality in older adults: the Cardiovascular Health Study.0 aBody weight dynamics and their association with physical functio c2010 Jan a63-700 v653 aBACKGROUND: To estimate the associations of weight dynamics with physical functioning and mortality in older adults.
METHODS: Longitudinal cohort study using prospectively collected data on weight, physical function, and health status in four U.S. Communities in the Cardiovascular Health Study. Included were 3,278 participants (2,013 women and 541 African Americans), aged 65 or older at enrollment, who had at least five weight measurements. Weight was measured at annual clinic visits between 1992 and 1999, and summary measures of mean weight, coefficient of variation, average annual weight change, and episodes of loss and gain (cycling) were calculated. Participants were followed from 1999 to 2006 for activities of daily living (ADL) difficulty, incident mobility limitations, and mortality.
RESULTS: Higher mean weight, weight variability, and weight cycling increased the risk of new onset of ADL difficulties and mobility limitations. After adjustment for risk factors, the hazard ratio (95% confidence interval) for weight cycling for incident ADL impairment was 1.28 (1.12, 1.47), similar to that for several comorbidities in our model, including cancer and diabetes. Lower weight, weight loss, higher variability, and weight cycling were all risk factors for mortality, after adjustment for demographic risk factors, height, self-report health status, and comorbidities.
CONCLUSIONS: Variations in weight are important indicators of future physical limitations and mortality in the elderly and may reflect difficulties in maintaining homeostasis throughout older ages. Monitoring the weight of an older person for fluctuations or episodes of both loss and gain is an important aspect of geriatric care.
10aActivities of Daily Living10aAge Factors10aAged, 80 and over10aBody Weight10aCardiovascular Diseases10aFemale10aFollow-Up Studies10aHealth Status10aHumans10aLongevity10aMale10aProspective Studies10aRisk Factors10aSurvival Rate10aUnited States1 aArnold, Alice, M1 aNewman, Anne, B1 aCushman, Mary1 aDing, Jingzhong1 aKritchevsky, Stephen uhttps://chs-nhlbi.org/node/109403375nas a2200505 4500008004100000022001400041245016800055210006900223260001300292300001200305490000700317520190800324653001602232653001602248653000902264653001002273653002502283653002802308653001902336653002802355653001902383653002802402653001102430653001802441653001102459653001802470653000902488653002102497653003202518653001702550653001602567653001702583653001802600100002002618700002102638700002402659700001902683700001802702700002002720700002802740700002302768700002202791700002002813856003602833 2010 eng d a1758-535X00aChange in circulating adiponectin in advanced old age: determinants and impact on physical function and mortality. The Cardiovascular Health Study All Stars Study.0 aChange in circulating adiponectin in advanced old age determinan c2010 Nov a1208-140 v653 aBACKGROUND: Cross-sectional studies show that adiponectin is higher in older than in younger adults but long-term change in adiponectin, its determinants, and its relationship to functional decline or survival in the elderly population have not been evaluated.
METHODS: We investigated predictors of longitudinal change in adiponectin, and the association of this adipokine or its antecedent change with physical deterioration and all-cause mortality in 988 participants in a population-based study who completed examinations in 1996-1997 and 2005-2006, had serial adiponectin measurements and underwent follow-up through June 2009.
RESULTS: Adiponectin level rose significantly during follow-up, but the increase was smaller in blacks, was associated with declining weight or fasting glucose and, in men, lower albumin, and was affected by medications. Adiponectin was independently associated with greater physical decline, but the relationship for adiponectin change was driven by concomitant weight decrease. Both adiponectin and its change independently predicted mortality, even after adjustment for weight change. The association for adiponectin and mortality was observed in whites but not in blacks and only for levels in the upper range (hazard ratio = 1.85, 95% confidence interval = 1.36-2.52 per SD ≥ 20 mg/L), whereas that for adiponectin change was linear throughout in both racial groups (hazard ratio = 1.30, 95% confidence interval = 1.10-1.52 per SD).
CONCLUSIONS: Adiponectin levels increase over time in long-lived adults and are associated with greater physical disability and mortality. Such increases may occur in response to age-related homeostatic dysregulation. Additional investigation is required to define the underlying mechanisms and whether this represents a marker or causal factor for mortality in this age group.
10aAdiponectin10aAge Factors10aAged10aAging10aAnalysis of Variance10aCardiovascular Diseases10aCause of Death10aChi-Square Distribution10aCohort Studies10aCross-Sectional Studies10aFemale10aHealth Status10aHumans10aLinear Models10aMale10aPhysical Fitness10aProportional Hazards Models10aRisk Factors10aSex Factors10aTime Factors10aUnited States1 aKizer, Jorge, R1 aArnold, Alice, M1 aStrotmeyer, Elsa, S1 aIves, Diane, G1 aCushman, Mary1 aDing, Jingzhong1 aKritchevsky, Stephen, B1 aChaves, Paulo, H M1 aHirsch, Calvin, H1 aNewman, Anne, B uhttps://chs-nhlbi.org/node/121404453nas a2200889 4500008004100000022001400041245011700055210006900172260001300241300001300254490000600267520190600273653004202179653001002221653003902231653000902270653001202279653001102291653003002302653003202332653001702364653003402381653003102415653001102446653002802457653001102485653002802496653000902524653001602533653002202549653001402571653003602585653001402621100001802635700002202653700001802675700001902693700002302712700002302735700002002758700001702778700002402795700002002819700001902839700002002858700001802878700002102896700002902917700002102946700002202967700001802989700001603007700002303023700001203046700002403058700002503082700002303107700002303130700002303153700002303176700002203199700002203221700002303243700001703266700002403283700002203307700002403329700001803353700002503371700002503396700002303421700002503444700001503469700002103484710002203505856003603527 2011 eng d a1553-740400aGenetic association for renal traits among participants of African ancestry reveals new loci for renal function.0 aGenetic association for renal traits among participants of Afric c2011 Sep ae10022640 v73 aChronic kidney disease (CKD) is an increasing global public health concern, particularly among populations of African ancestry. We performed an interrogation of known renal loci, genome-wide association (GWA), and IBC candidate-gene SNP association analyses in African Americans from the CARe Renal Consortium. In up to 8,110 participants, we performed meta-analyses of GWA and IBC array data for estimated glomerular filtration rate (eGFR), CKD (eGFR <60 mL/min/1.73 m(2)), urinary albumin-to-creatinine ratio (UACR), and microalbuminuria (UACR >30 mg/g) and interrogated the 250 kb flanking region around 24 SNPs previously identified in European Ancestry renal GWAS analyses. Findings were replicated in up to 4,358 African Americans. To assess function, individually identified genes were knocked down in zebrafish embryos by morpholino antisense oligonucleotides. Expression of kidney-specific genes was assessed by in situ hybridization, and glomerular filtration was evaluated by dextran clearance. Overall, 23 of 24 previously identified SNPs had direction-consistent associations with eGFR in African Americans, 2 of which achieved nominal significance (UMOD, PIP5K1B). Interrogation of the flanking regions uncovered 24 new index SNPs in African Americans, 12 of which were replicated (UMOD, ANXA9, GCKR, TFDP2, DAB2, VEGFA, ATXN2, GATM, SLC22A2, TMEM60, SLC6A13, and BCAS3). In addition, we identified 3 suggestive loci at DOK6 (p-value = 5.3×10(-7)) and FNDC1 (p-value = 3.0×10(-7)) for UACR, and KCNQ1 with eGFR (p = 3.6×10(-6)). Morpholino knockdown of kcnq1 in the zebrafish resulted in abnormal kidney development and filtration capacity. We identified several SNPs in association with eGFR in African Ancestry individuals, as well as 3 suggestive loci for UACR and eGFR. Functional genetic studies support a role for kcnq1 in glomerular development in zebrafish.
10aAdaptor Proteins, Vesicular Transport10aAdult10aAfrican Continental Ancestry Group10aAged10aAnimals10aFemale10aGene Knockdown Techniques10aGenetic Association Studies10aGenetic Loci10aGenome-Wide Association Study10aGlomerular Filtration Rate10aHumans10aKCNQ1 Potassium Channel10aKidney10aKidney Failure, Chronic10aMale10aMiddle Aged10aNeoplasm Proteins10aPhenotype10aPolymorphism, Single Nucleotide10aZebrafish1 aLiu, Ching-Ti1 aGarnaas, Maija, K1 aTin, Adrienne1 aKöttgen, Anna1 aFranceschini, Nora1 aPeralta, Carmen, A1 ade Boer, Ian, H1 aLu, Xiaoning1 aAtkinson, Elizabeth1 aDing, Jingzhong1 aNalls, Michael1 aShriner, Daniel1 aCoresh, Josef1 aKutlar, Abdullah1 aBibbins-Domingo, Kirsten1 aSiscovick, David1 aAkylbekova, Ermeg1 aWyatt, Sharon1 aAstor, Brad1 aMychaleckjy, Josef1 aLi, Man1 aReilly, Muredach, P1 aTownsend, Raymond, R1 aAdeyemo, Adebowale1 aZonderman, Alan, B1 ade Andrade, Mariza1 aTurner, Stephen, T1 aMosley, Thomas, H1 aHarris, Tamara, B1 aRotimi, Charles, N1 aLiu, Yongmei1 aKardia, Sharon, L R1 aEvans, Michele, K1 aShlipak, Michael, G1 aKramer, Holly1 aFlessner, Michael, F1 aDreisbach, Albert, W1 aGoessling, Wolfram1 aCupples, Adrienne, L1 aKao, Linda1 aFox, Caroline, S1 aCKDGen Consortium uhttps://chs-nhlbi.org/node/132703433nas a2200481 4500008004100000022001400041245015800055210006900213260001300282300001100295490000700306520199800313653001602311653002202327653001502349653002302364653002802387653002802415653003802443653001102481653001102492653001702503653001802520653000902538653001402547653003002561653001702591653003202608653002202640653001802662100002002680700002102700700002002721700001802741700002402759700001902783700002002802700002802822700002302850700002202873700002002895856003602915 2011 eng d a1758-535X00aLongitudinal changes in adiponectin and inflammatory markers and relation to survival in the oldest old: the Cardiovascular Health Study All Stars study.0 aLongitudinal changes in adiponectin and inflammatory markers and c2011 Oct a1100-70 v663 aBACKGROUND: Adiponectin has anti-inflammatory properties, and its production is suppressed by inflammatory factors. Although elevated levels of adiponectin and inflammatory markers each predict mortality in older adults, the implications of their interdependent actions have not been examined.
METHODS: We investigated the joint associations of levels and interval changes in adiponectin, C-reactive protein (CRP), and interleukin 6 (IL-6) with risk of death in 840 older adults participating in a population-based study. Adiponectin, CRP, and IL-6 were measured in samples collected 8.9 (8.2-9.8) years apart, and all-cause mortality was subsequently ascertained (n = 176).
RESULTS: Interval changes and end levels of adiponectin, CRP, and IL-6 showed mostly positive, independent associations with mortality, without evidence of multiplicative interaction. Joint models, however, showed an U-shaped relationship between end level of adiponectin and outcome (hazard ratio [HR] [95% CI] = 0.72 [0.52-0.99] per standard deviation [SD] for levels <20.0 mg/L; HR = 1.91 [1.61-3.44] per SD for levels ≥20.0 mg/L). Participants with the greatest longitudinal increases (upper quartile) in both adiponectin and inflammatory markers had a higher risk of death (HR = 2.85 [1.78-4.58]) than those with large increases in adiponectin alone (HR = 1.87 [1.20-2.92]) (p = .043), but not inflammatory markers alone (HR = 2.48 [1.67-3.67]) (p = .55), as compared with smaller changes for both.
CONCLUSION: Higher levels or interval change in adiponectin and inflammatory markers predict increased mortality in older persons independent of each other, although for adiponectin, the association appears inverse below 20 mg/L. These findings suggest that inflammatory and noninflammatory mechanisms governing aging-related decline operate in parallel and provide a potential explanation for paradoxical adiponectin-outcome associations reported previously.
10aAdiponectin10aAged, 80 and over10aBiomarkers10aC-Reactive Protein10aCardiovascular Diseases10aChi-Square Distribution10aEnzyme-Linked Immunosorbent Assay10aFemale10aHumans10aInflammation10aInterleukin-610aMale10aMortality10aPredictive Value of Tests10aRisk Factors10aSensitivity and Specificity10aSurvival Analysis10aUnited States1 aKizer, Jorge, R1 aArnold, Alice, M1 aJenny, Nancy, S1 aCushman, Mary1 aStrotmeyer, Elsa, S1 aIves, Diane, G1 aDing, Jingzhong1 aKritchevsky, Stephen, B1 aChaves, Paulo, H M1 aHirsch, Calvin, H1 aNewman, Anne, B uhttps://chs-nhlbi.org/node/129602877nas a2200361 4500008004100000022001400041245011400055210006900169260001300238300001100251490000700262520185800269653000902127653002202136653002802158653002002186653001102206653001102217653000902228653000902237653002202246100002002268700002102288700002202309700002102331700002202352700002002374700002002394700002402414700002102438700002002459856003602479 2011 eng d a1758-535X00aSubclinical vascular disease burden and risk for death and cardiovascular events in older community dwellers.0 aSubclinical vascular disease burden and risk for death and cardi c2011 Sep a986-930 v663 aBACKGROUND: Individual measures and previous composite measures of subclinical vascular disease defined high risk for cardiovascular events, but did not detect low and modest risk. A different approach might better describe the spectrum from low to high risk. Methods and Results. In the Cardiovascular Health Study, 3,252 participants without history of clinical cardiovascular disease (M ± SD 74.3 years ± 5.1, 63% women, 17% African Americans) had noninvasive vascular assessments in 1992-1993. We assigned a score of 0, 1, or 2 (no, mild, or severe abnormalities) to ankle-arm index, electrocardiogram, and common carotid intima-media thickness, based on clinical cutoffs. A summary index (range 0-6, absent to severe disease) summed individual scores. Abdominal aortic ultrasound and brain magnetic resonance imaging were collected in a subsample. Mortality and incident cardiovascular events were identified through June 2008. Event and death rates increased across index grades. Comparing grades 1 to 5+ with absent disease, and adjusting for demographics, hazard ratios for cardiovascular events within 8 years ranged from 1.1 (95% confidence interval 0.8-1.6) to 4.7 (3.4-6.9) and, for mortality, from 1.5 (1.0-2.3) to 5.0 (3.3-7.7) (p for trend across grades <.001 for both outcomes). Adjustment for cardiovascular risk factors did not substantially change the associations. The index improved mortality risk classification over demographics and risk factors in participants who did not die during the follow-up. Including in the index the aortic ultrasound and the brain magnetic resonance imaging further improved risk classification.
CONCLUSIONS: Older adults with minimal subclinical vascular disease had low cardiovascular events risk and mortality. This approach might more fully account for vascular burden.
10aAged10aAged, 80 and over10aCardiovascular Diseases10aCost of Illness10aFemale10aHumans10aMale10aRisk10aVascular Diseases1 aInzitari, Marco1 aArnold, Alice, M1 aPatel, Kushang, V1 aMercer, Laina, D1 aKarlamangla, Arun1 aDing, Jingzhong1 aPsaty, Bruce, M1 aWilliamson, Jeff, D1 aKuller, Lewis, H1 aNewman, Anne, B uhttps://chs-nhlbi.org/node/130007377nas a2201945 4500008004100000022001400041245014700055210006900202260001600271300001100287490000600298520192200304653001002226653001602236653000902252653002202261653001202283653002502295653003102320653001902351653004202370653001102412653003402423653001302457653001902470653001102489653002002500653000902520653001602529653003302545653001402578653003602592653001702628653001602645100002402661700002202685700002002707700001602727700002102743700001702764700002002781700002002801700002002821700001902841700001702860700002202877700002302899700002502922700001702947700002202964700002502986700002003011700001903031700002303050700002203073700001903095700002103114700001803135700002203153700001503175700002203190700002203212700002003234700002503254700002103279700002403300700001603324700001803340700002703358700002103385700002503406700001903431700001803450700002603468700002103494700002303515700001903538700002403557700002503581700002003606700001803626700003003644700002203674700002003696700002103716700002203737700001903759700002003778700001803798700002403816700001903840700001903859700001803878700002703896700001803923700002303941700002803964700002103992700001604013700001904029700001704048700002304065700001804088700002104106700001804127700002004145700001804165700002904183700002104212700002004233700003004253700001904283700002304302700002304325700001904348700002004367700002104387700001404408700002604422700002204448700002204470700002204492700002104514700002004535700002604555700002804581700001904609700002304628700001904651700002104670700002004691700001804711700002204729700001604751700002904767700002404796700002104820700002004841700001904861700002504880700002204905700002404927700002504951700001704976700002004993700002005013700001905033700001605052700002305068700002005091700002305111700001705134700002005151700002205171700002105193700003005214700001705244700002205261700002305283700002105306700001905327700002505346700002405371856003605395 2012 eng d a1942-326800aAssociation between chromosome 9p21 variants and the ankle-brachial index identified by a meta-analysis of 21 genome-wide association studies.0 aAssociation between chromosome 9p21 variants and the anklebrachi c2012 Feb 01 a100-120 v53 aBACKGROUND: Genetic determinants of peripheral arterial disease (PAD) remain largely unknown. To identify genetic variants associated with the ankle-brachial index (ABI), a noninvasive measure of PAD, we conducted a meta-analysis of genome-wide association study data from 21 population-based cohorts.
METHODS AND RESULTS: Continuous ABI and PAD (ABI ≤0.9) phenotypes adjusted for age and sex were examined. Each study conducted genotyping and imputed data to the ≈2.5 million single nucleotide polymorphisms (SNPs) in HapMap. Linear and logistic regression models were used to test each SNP for association with ABI and PAD using additive genetic models. Study-specific data were combined using fixed effects inverse variance weighted meta-analyses. There were a total of 41 692 participants of European ancestry (≈60% women, mean ABI 1.02 to 1.19), including 3409 participants with PAD and with genome-wide association study data available. In the discovery meta-analysis, rs10757269 on chromosome 9 near CDKN2B had the strongest association with ABI (β=-0.006, P=2.46×10(-8)). We sought replication of the 6 strongest SNP associations in 5 population-based studies and 3 clinical samples (n=16 717). The association for rs10757269 strengthened in the combined discovery and replication analysis (P=2.65×10(-9)). No other SNP associations for ABI or PAD achieved genome-wide significance. However, 2 previously reported candidate genes for PAD and 1 SNP associated with coronary artery disease were associated with ABI: DAB21P (rs13290547, P=3.6×10(-5)), CYBA (rs3794624, P=6.3×10(-5)), and rs1122608 (LDLR, P=0.0026).
CONCLUSIONS: Genome-wide association studies in more than 40 000 individuals identified 1 genome wide significant association on chromosome 9p21 with ABI. Two candidate genes for PAD and 1 SNP for coronary artery disease are associated with ABI.
10aAdult10aAge Factors10aAged10aAged, 80 and over10aAlleles10aAnkle Brachial Index10aChromosomes, Human, Pair 910aCohort Studies10aCyclin-Dependent Kinase Inhibitor p1510aFemale10aGenome-Wide Association Study10aGenotype10aHapMap Project10aHumans10aLogistic Models10aMale10aMiddle Aged10aPeripheral Vascular Diseases10aPhenotype10aPolymorphism, Single Nucleotide10aRisk Factors10aSex Factors1 aMurabito, Joanne, M1 aWhite, Charles, C1 aKavousi, Maryam1 aSun, Yan, V1 aFeitosa, Mary, F1 aNambi, Vijay1 aLamina, Claudia1 aSchillert, Arne1 aCoassin, Stefan1 aBis, Joshua, C1 aBroer, Linda1 aCrawford, Dana, C1 aFranceschini, Nora1 aFrikke-Schmidt, Ruth1 aHaun, Margot1 aHolewijn, Suzanne1 aHuffman, Jennifer, E1 aHwang, Shih-Jen1 aKiechl, Stefan1 aKollerits, Barbara1 aMontasser, May, E1 aNolte, Ilja, M1 aRudock, Megan, E1 aSenft, Andrea1 aTeumer, Alexander1 aHarst, Pim1 aVitart, Veronique1 aWaite, Lindsay, L1 aWood, Andrew, R1 aWassel, Christina, L1 aAbsher, Devin, M1 aAllison, Matthew, A1 aAmin, Najaf1 aArnold, Alice1 aAsselbergs, Folkert, W1 aAulchenko, Yurii1 aBandinelli, Stefania1 aBarbalic, Maja1 aBoban, Mladen1 aBrown-Gentry, Kristin1 aCouper, David, J1 aCriqui, Michael, H1 aDehghan, Abbas1 aHeijer, Martin, den1 aDieplinger, Benjamin1 aDing, Jingzhong1 aDörr, Marcus1 aEspinola-Klein, Christine1 aFelix, Stephan, B1 aFerrucci, Luigi1 aFolsom, Aaron, R1 aFraedrich, Gustav1 aGibson, Quince1 aGoodloe, Robert1 aGunjaca, Grgo1 aHaltmayer, Meinhard1 aHeiss, Gerardo1 aHofman, Albert1 aKieback, Arne1 aKiemeney, Lambertus, A1 aKolcic, Ivana1 aKullo, Iftikhar, J1 aKritchevsky, Stephen, B1 aLackner, Karl, J1 aLi, Xiaohui1 aLieb, Wolfgang1 aLohman, Kurt1 aMeisinger, Christa1 aMelzer, David1 aMohler, Emile, R1 aMudnic, Ivana1 aMueller, Thomas1 aNavis, Gerjan1 aOberhollenzer, Friedrich1 aOlin, Jeffrey, W1 aO'Connell, Jeff1 aO'Donnell, Christopher, J1 aPalmas, Walter1 aPenninx, Brenda, W1 aPetersmann, Astrid1 aPolasek, Ozren1 aPsaty, Bruce, M1 aRantner, Barbara1 aRice, Ken1 aRivadeneira, Fernando1 aRotter, Jerome, I1 aSeldenrijk, Adrie1 aStadler, Marietta1 aSummerer, Monika1 aTanaka, Toshiko1 aTybjaerg-Hansen, Anne1 aUitterlinden, André, G1 aGilst, Wiek, H1 aVermeulen, Sita, H1 aWild, Sarah, H1 aWild, Philipp, S1 aWilleit, Johann1 aZeller, Tanja1 aZemunik, Tatijana1 aZgaga, Lina1 aAssimes, Themistocles, L1 aBlankenberg, Stefan1 aBoerwinkle, Eric1 aCampbell, Harry1 aCooke, John, P1 ade Graaf, Jacqueline1 aHerrington, David1 aKardia, Sharon, L R1 aMitchell, Braxton, D1 aMurray, Anna1 aMünzel, Thomas1 aNewman, Anne, B1 aOostra, Ben, A1 aRudan, Igor1 aShuldiner, Alan, R1 aSnieder, Harold1 aDuijn, Cornelia, M1 aVölker, Uwe1 aWright, Alan, F1 aWichmann, H-Erich1 aWilson, James, F1 aWitteman, Jacqueline, C M1 aLiu, Yongmei1 aHayward, Caroline1 aBorecki, Ingrid, B1 aZiegler, Andreas1 aNorth, Kari, E1 aCupples, Adrienne, L1 aKronenberg, Florian uhttps://chs-nhlbi.org/node/135907422nas a2202413 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2012 eng d a1553-740400aGenome-wide association and functional follow-up reveals new loci for kidney function.0 aGenomewide association and functional followup reveals new loci c2012 ae10025840 v83 aChronic kidney disease (CKD) is an important public health problem with a genetic component. We performed genome-wide association studies in up to 130,600 European ancestry participants overall, and stratified for key CKD risk factors. We uncovered 6 new loci in association with estimated glomerular filtration rate (eGFR), the primary clinical measure of CKD, in or near MPPED2, DDX1, SLC47A1, CDK12, CASP9, and INO80. Morpholino knockdown of mpped2 and casp9 in zebrafish embryos revealed podocyte and tubular abnormalities with altered dextran clearance, suggesting a role for these genes in renal function. By providing new insights into genes that regulate renal function, these results could further our understanding of the pathogenesis of CKD.
10aAfrican Americans10aAged10aAnimals10aCaspase 910aCyclin-Dependent Kinases10aDEAD-box RNA Helicases10aDNA Helicases10aEuropean Continental Ancestry Group10aFemale10aFollow-Up Studies10aGene Knockdown Techniques10aGenome-Wide Association Study10aGlomerular Filtration Rate10aHumans10aKidney10aKidney Failure, Chronic10aMale10aMiddle Aged10aPhosphoric Diester Hydrolases10aZebrafish1 aPattaro, Cristian1 aKöttgen, Anna1 aTeumer, Alexander1 aGarnaas, Maija1 aBöger, Carsten, A1 aFuchsberger, Christian1 aOlden, Matthias1 aChen, Ming-Huei1 aTin, Adrienne1 aTaliun, Daniel1 aLi, Man1 aGao, Xiaoyi1 aGorski, Mathias1 aYang, Qiong1 aHundertmark, Claudia1 aFoster, Meredith, C1 aO'Seaghdha, Conall, M1 aGlazer, Nicole1 aIsaacs, Aaron1 aLiu, Ching-Ti1 aSmith, Albert, V1 aO'Connell, Jeffrey, R1 aStruchalin, Maksim1 aTanaka, Toshiko1 aLi, Guo1 aJohnson, Andrew, D1 aGierman, Hinco, J1 aFeitosa, Mary1 aHwang, Shih-Jen1 aAtkinson, Elizabeth, J1 aLohman, Kurt1 aCornelis, Marilyn, C1 aJohansson, Asa1 aTönjes, Anke1 aDehghan, Abbas1 aChouraki, Vincent1 aHolliday, Elizabeth, G1 aSorice, Rossella1 aKutalik, Zoltán1 aLehtimäki, Terho1 aEsko, Tõnu1 aDeshmukh, Harshal1 aUlivi, Sheila1 aChu, Audrey, Y1 aMurgia, Federico1 aTrompet, Stella1 aImboden, Medea1 aKollerits, Barbara1 aPistis, Giorgio1 aHarris, Tamara, B1 aLauner, Lenore, J1 aAspelund, Thor1 aEiriksdottir, Gudny1 aMitchell, Braxton, D1 aBoerwinkle, Eric1 aSchmidt, Helena1 aCavalieri, Margherita1 aRao, Madhumathi1 aHu, Frank, B1 aDemirkan, Ayse1 aOostra, Ben, A1 ade Andrade, Mariza1 aTurner, Stephen, T1 aDing, Jingzhong1 aAndrews, Jeanette, S1 aFreedman, Barry, I1 aKoenig, Wolfgang1 aIllig, Thomas1 aDöring, Angela1 aWichmann, H-Erich1 aKolcic, Ivana1 aZemunik, Tatijana1 aBoban, Mladen1 aMinelli, Cosetta1 aWheeler, Heather, E1 aIgl, Wilmar1 aZaboli, Ghazal1 aWild, Sarah, H1 aWright, Alan, F1 aCampbell, Harry1 aEllinghaus, David1 aNöthlings, Ute1 aJacobs, Gunnar1 aBiffar, Reiner1 aEndlich, Karlhans1 aErnst, Florian1 aHomuth, Georg1 aKroemer, Heyo, K1 aNauck, Matthias1 aStracke, Sylvia1 aVölker, Uwe1 aVölzke, Henry1 aKovacs, Peter1 aStumvoll, Michael1 aMägi, Reedik1 aHofman, Albert1 aUitterlinden, André, G1 aRivadeneira, Fernando1 aAulchenko, Yurii, S1 aPolasek, Ozren1 aHastie, Nick1 aVitart, Veronique1 aHelmer, Catherine1 aWang, Jie, Jin1 aRuggiero, Daniela1 aBergmann, Sven1 aKähönen, Mika1 aViikari, Jorma1 aNikopensius, Tiit1 aProvince, Michael1 aKetkar, Shamika1 aColhoun, Helen1 aDoney, Alex1 aRobino, Antonietta1 aGiulianini, Franco1 aKrämer, Bernhard, K1 aPortas, Laura1 aFord, Ian1 aBuckley, Brendan, M1 aAdam, Martin1 aThun, Gian-Andri1 aPaulweber, Bernhard1 aHaun, Margot1 aSala, Cinzia1 aMetzger, Marie1 aMitchell, Paul1 aCiullo, Marina1 aKim, Stuart, K1 aVollenweider, Peter1 aRaitakari, Olli1 aMetspalu, Andres1 aPalmer, Colin1 aGasparini, Paolo1 aPirastu, Mario1 aJukema, Wouter1 aProbst-Hensch, Nicole, M1 aKronenberg, Florian1 aToniolo, Daniela1 aGudnason, Vilmundur1 aShuldiner, Alan, R1 aCoresh, Josef1 aSchmidt, Reinhold1 aFerrucci, Luigi1 aSiscovick, David, S1 aDuijn, Cornelia, M1 aBorecki, Ingrid1 aKardia, Sharon, L R1 aLiu, Yongmei1 aCurhan, Gary, C1 aRudan, Igor1 aGyllensten, Ulf1 aWilson, James, F1 aFranke, Andre1 aPramstaller, Peter, P1 aRettig, Rainer1 aProkopenko, Inga1 aWitteman, Jacqueline, C M1 aHayward, Caroline1 aRidker, Paul1 aParsa, Afshin1 aBochud, Murielle1 aHeid, Iris, M1 aGoessling, Wolfram1 aChasman, Daniel, I1 aKao, Linda, W H1 aFox, Caroline, S1 aCARDIoGRAM consortium1 aICBP Consortium1 aCARe Consortium1 aWellcome Trust Case Control Consortium 2 (WTCCC2) uhttps://chs-nhlbi.org/node/137705960nas a2201525 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2012 eng d a1528-002000aGenome-wide association study for circulating levels of PAI-1 provides novel insights into its regulation.0 aGenomewide association study for circulating levels of PAI1 prov c2012 Dec 06 a4873-810 v1203 aWe conducted a genome-wide association study to identify novel associations between genetic variants and circulating plasminogen activator inhibitor-1 (PAI-1) concentration, and examined functional implications of variants and genes that were discovered. A discovery meta-analysis was performed in 19 599 subjects, followed by replication analysis of genome-wide significant (P < 5 × 10(-8)) single nucleotide polymorphisms (SNPs) in 10 796 independent samples. We further examined associations with type 2 diabetes and coronary artery disease, assessed the functional significance of the SNPs for gene expression in human tissues, and conducted RNA-silencing experiments for one novel association. We confirmed the association of the 4G/5G proxy SNP rs2227631 in the promoter region of SERPINE1 (7q22.1) and discovered genome-wide significant associations at 3 additional loci: chromosome 7q22.1 close to SERPINE1 (rs6976053, discovery P = 3.4 × 10(-10)); chromosome 11p15.2 within ARNTL (rs6486122, discovery P = 3.0 × 10(-8)); and chromosome 3p25.2 within PPARG (rs11128603, discovery P = 2.9 × 10(-8)). Replication was achieved for the 7q22.1 and 11p15.2 loci. There was nominal association with type 2 diabetes and coronary artery disease at ARNTL (P < .05). Functional studies identified MUC3 as a candidate gene for the second association signal on 7q22.1. In summary, SNPs in SERPINE1 and ARNTL and an SNP associated with the expression of MUC3 were robustly associated with circulating levels of PAI-1.
10aAdaptor Proteins, Signal Transducing10aARNTL Transcription Factors10aATPases Associated with Diverse Cellular Activities10aCell Line10aCell Line, Tumor10aCohort Studies10aCoronary Artery Disease10aDiabetes Mellitus, Type 210aGene Expression Profiling10aGene Expression Regulation10aGene Frequency10aGenome-Wide Association Study10aGenotype10aHumans10aLIM Domain Proteins10aMeta-Analysis as Topic10aMonocytes10aMucin-310aPlasminogen Activator Inhibitor 110aPolymorphism, Single Nucleotide10aPPAR gamma10aProteasome Endopeptidase Complex10aRNA Interference10aTranscription Factors1 aHuang, Jie1 aSabater-Lleal, Maria1 aAsselbergs, Folkert, W1 aTregouet, David1 aShin, So-Youn1 aDing, Jingzhong1 aBaumert, Jens1 aOudot-Mellakh, Tiphaine1 aFolkersen, Lasse1 aJohnson, Andrew, D1 aSmith, Nicholas, L1 aWilliams, Scott, M1 aIkram, Mohammad, A1 aKleber, Marcus, E1 aBecker, Diane, M1 aTruong, Vinh1 aMychaleckyj, Josyf, C1 aTang, Weihong1 aYang, Qiong1 aSennblad, Bengt1 aMoore, Jason, H1 aWilliams, Frances, M K1 aDehghan, Abbas1 aSilbernagel, Günther1 aSchrijvers, Elisabeth, M C1 aSmith, Shelly1 aKarakas, Mahir1 aTofler, Geoffrey, H1 aSilveira, Angela1 aNavis, Gerjan, J1 aLohman, Kurt1 aChen, Ming-Huei1 aPeters, Annette1 aGoel, Anuj1 aHopewell, Jemma, C1 aChambers, John, C1 aSaleheen, Danish1 aLundmark, Per1 aPsaty, Bruce, M1 aStrawbridge, Rona, J1 aBoehm, Bernhard, O1 aCarter, Angela, M1 aMeisinger, Christa1 aPeden, John, F1 aBis, Joshua, C1 aMcKnight, Barbara1 aOhrvik, John1 aTaylor, Kent1 aFranzosi, Maria Grazia1 aSeedorf, Udo1 aCollins, Rory1 aFranco-Cereceda, Anders1 aSyvänen, Ann-Christine1 aGoodall, Alison, H1 aYanek, Lisa, R1 aCushman, Mary1 aMüller-Nurasyid, Martina1 aFolsom, Aaron, R1 aBasu, Saonli1 aMatijevic, Nena1 aGilst, Wiek, H1 aKooner, Jaspal, S1 aHofman, Albert1 aDanesh, John1 aClarke, Robert1 aMeigs, James, B1 aKathiresan, Sekar1 aReilly, Muredach, P1 aKlopp, Norman1 aHarris, Tamara, B1 aWinkelmann, Bernhard, R1 aGrant, Peter, J1 aHillege, Hans, L1 aWatkins, Hugh1 aSpector, Timothy, D1 aBecker, Lewis, C1 aTracy, Russell, P1 aMärz, Winfried1 aUitterlinden, André, G1 aEriksson, Per1 aCambien, Francois1 aMorange, Pierre-Emmanuel1 aKoenig, Wolfgang1 aSoranzo, Nicole1 aHarst, Pim1 aLiu, Yongmei1 aO'Donnell, Christopher, J1 aHamsten, Anders1 aDIAGRAM Consortium1 aCARDIoGRAM consortium1 aC4D Consortium1 aCardiogenics consortium uhttps://chs-nhlbi.org/node/608903074nas a2200481 4500008004100000022001400041245011600055210006900171260001300240300001000253490000700263520173100270653000902001653002202010653001002032653002302042653002802065653001402093653001902107653002802126653001102154653001102165653001702176653002702193653001802220653002502238653000902263653001702272653001202289100002002301700002102321700002102342700002402363700001802387700002302405700002002428700002002448700002802468700002002496700002002516700002002536856003602556 2012 eng d a1758-535X00aLong-term assessment of inflammation and healthy aging in late life: the Cardiovascular Health Study All Stars.0 aLongterm assessment of inflammation and healthy aging in late li c2012 Sep a970-60 v673 aBACKGROUND: Associations of inflammation with age-related pathologies are documented; however, it is not understood how changes in inflammation over time impact healthy aging.
METHODS: We examined associations of long-term change in C-reactive protein (CRP) and interleukin-6 (IL-6) with concurrent onset of physical and cognitive impairment, subsequent cardiovascular disease (CVD), and mortality in 1,051 participants in the Cardiovascular Health Study All Stars Study. Biomarkers were measured in 1996-1997 and 2005-2006.
RESULTS: In 2005-2006, median age was 84.9 years, 63% were women and 17% non-white; 21% had at least a doubling in CRP over time and 23% had at least a doubling in IL-6. Adjusting for demographics, CVD risk factors, and 1996-1997 CRP level, each doubling in CRP change over 9 years was associated with higher risk of physical or cognitive impairment (odds ratio 1.29; 95% confidence interval 1.15, 1.45). Results were similar for IL-6 (1.45; 1.20, 1.76). A doubling in IL-6 change over time, but not CRP, was associated with incident CVD events; hazard ratio (95% confidence interval) 1.34 (1.03, 1.75). Doubling in change in each biomarker was individually associated with mortality (CRP: 1.12 [1.03, 1.22]; IL-6 1.39 [1.16, 1.65]). In models containing both change and 2005-2006 level, only level was associated with CVD events and mortality.
CONCLUSIONS: Although increases in inflammation markers over 9 years were associated with higher concurrent risk of functional impairment and subsequent CVD events and mortality, final levels of each biomarker appeared to be more important in determining risk of subsequent events than change over time.
10aAged10aAged, 80 and over10aAging10aC-Reactive Protein10aCardiovascular Diseases10aCognition10aCohort Studies10aCross-Sectional Studies10aFemale10aHumans10aInflammation10aInflammation Mediators10aInterleukin-610aLongitudinal Studies10aMale10aRisk Factors10aVermont1 aJenny, Nancy, S1 aFrench, Benjamin1 aArnold, Alice, M1 aStrotmeyer, Elsa, S1 aCushman, Mary1 aChaves, Paulo, H M1 aDing, Jingzhong1 aFried, Linda, P1 aKritchevsky, Stephen, B1 aRifkin, Dena, E1 aSarnak, Mark, J1 aNewman, Anne, B uhttps://chs-nhlbi.org/node/136604917nas a2201453 4500008004100000022001400041245008200055210006900137260001600206300001000222490000700232520088500239653001501124653001001139653000901149653002201158653003701180653002401217653001001241653002101251653004001272653001101312653001701323653003801340653003401378653001101412653001101423653002001434653000901454653001601463653003601479653001701515653001601532100002401548700002401572700002501596700002201621700002401643700002101667700001901688700003001707700002201737700002201759700001901781700001901800700001801819700001901837700002201856700001801878700001801896700002201914700001701936700002001953700002301973700002301996700002202019700002102041700002602062700002202088700001702110700002202127700002202149700002302171700002202194700002202216700002302238700002202261700001902283700001702302700001902319700002002338700001902358700002102377700001702398700002402415700002402439700001202463700002602475700001902501700002002520700001902540700002002559700001702579700002302596700002302619700002202642700001402664700002202678700001702700700002102717700001802738700001902756700002002775700002102795700002102816700002002837700002202857700002002879700002202899700003002921700002002951700002202971700001802993700002803011700002603039700002203065700002203087700002003109700001703129700002303146700001903169700002203188700002603210700002203236700001903258700001903277700001803296700002303314700002303337700002403360700002403384700001903408856003603427 2012 eng d a1546-171800aMeta-analysis identifies six new susceptibility loci for atrial fibrillation.0 aMetaanalysis identifies six new susceptibility loci for atrial f c2012 Apr 29 a670-50 v443 aAtrial fibrillation is a highly prevalent arrhythmia and a major risk factor for stroke, heart failure and death. We conducted a genome-wide association study (GWAS) in individuals of European ancestry, including 6,707 with and 52,426 without atrial fibrillation. Six new atrial fibrillation susceptibility loci were identified and replicated in an additional sample of individuals of European ancestry, including 5,381 subjects with and 10,030 subjects without atrial fibrillation (P < 5 × 10(-8)). Four of the loci identified in Europeans were further replicated in silico in a GWAS of Japanese individuals, including 843 individuals with and 3,350 individuals without atrial fibrillation. The identified loci implicate candidate genes that encode transcription factors related to cardiopulmonary development, cardiac-expressed ion channels and cell signaling molecules.
10aAdolescent10aAdult10aAged10aAged, 80 and over10aAsian Continental Ancestry Group10aAtrial Fibrillation10aChild10aChild, Preschool10aEuropean Continental Ancestry Group10aFemale10aGenetic Loci10aGenetic Predisposition to Disease10aGenome-Wide Association Study10aHumans10aInfant10aInfant, Newborn10aMale10aMiddle Aged10aPolymorphism, Single Nucleotide10aRisk Factors10aYoung Adult1 aEllinor, Patrick, T1 aLunetta, Kathryn, L1 aAlbert, Christine, M1 aGlazer, Nicole, L1 aRitchie, Marylyn, D1 aSmith, Albert, V1 aArking, Dan, E1 aMüller-Nurasyid, Martina1 aKrijthe, Bouwe, P1 aLubitz, Steven, A1 aBis, Joshua, C1 aChung, Mina, K1 aDörr, Marcus1 aOzaki, Kouichi1 aRoberts, Jason, D1 aSmith, Gustav1 aPfeufer, Arne1 aSinner, Moritz, F1 aLohman, Kurt1 aDing, Jingzhong1 aSmith, Nicholas, L1 aSmith, Jonathan, D1 aRienstra, Michiel1 aRice, Kenneth, M1 aVan Wagoner, David, R1 aMagnani, Jared, W1 aWakili, Reza1 aClauss, Sebastian1 aRotter, Jerome, I1 aSteinbeck, Gerhard1 aLauner, Lenore, J1 aDavies, Robert, W1 aBorkovich, Matthew1 aHarris, Tamara, B1 aLin, Honghuang1 aVölker, Uwe1 aVölzke, Henry1 aMilan, David, J1 aHofman, Albert1 aBoerwinkle, Eric1 aChen, Lin, Y1 aSoliman, Elsayed, Z1 aVoight, Benjamin, F1 aLi, Guo1 aChakravarti, Aravinda1 aKubo, Michiaki1 aTedrow, Usha, B1 aRose, Lynda, M1 aRidker, Paul, M1 aConen, David1 aTsunoda, Tatsuhiko1 aFurukawa, Tetsushi1 aSotoodehnia, Nona1 aXu, Siyan1 aKamatani, Naoyuki1 aLevy, Daniel1 aNakamura, Yusuke1 aParvez, Babar1 aMahida, Saagar1 aFurie, Karen, L1 aRosand, Jonathan1 aMuhammad, Raafia1 aPsaty, Bruce, M1 aMeitinger, Thomas1 aPerz, Siegfried1 aWichmann, H-Erich1 aWitteman, Jacqueline, C M1 aKao, Linda, W H1 aKathiresan, Sekar1 aRoden, Dan, M1 aUitterlinden, André, G1 aRivadeneira, Fernando1 aMcKnight, Barbara1 aSjögren, Marketa1 aNewman, Anne, B1 aLiu, Yongmei1 aGollob, Michael, H1 aMelander, Olle1 aTanaka, Toshihiro1 aStricker, Bruno, H Ch1 aFelix, Stephan, B1 aAlonso, Alvaro1 aDarbar, Dawood1 aBarnard, John1 aChasman, Daniel, I1 aHeckbert, Susan, R1 aBenjamin, Emelia, J1 aGudnason, Vilmundur1 aKääb, Stefan uhttps://chs-nhlbi.org/node/138307440nas a2202173 4500008004100000022001400041245009700055210006900152260001300221300001200234490000700246520143200253653002301685653004001708653001901748653002201767653003401789653001101823653001101834653003701845653001401882653003601896653003301932100001801965700002701983700001902010700002602029700002202055700002302077700002302100700002202123700002202145700002002167700002002187700001802207700001802225700001902243700001202262700001802274700002002292700001602312700002502328700002402353700001902377700001802396700002002414700002102434700002602455700002302481700002002504700001202524700002002536700002702556700001702583700002502600700001902625700001802644700001902662700002102681700002702702700002102729700002102750700002202771700001602793700002202809700001802831700001902849700002102868700002002889700001902909700002302928700002002951700002202971700002202993700001903015700002403034700002503058700002103083700002003104700001703124700001403141700001903155700001903174700002303193700002003216700002503236700002303261700002303284700002103307700001803328700002003346700002203366700001603388700002203404700001803426700002103444700002403465700001603489700001903505700001903524700002003543700002003563700002203583700002003605700001903625700001903644700001903663700001803682700002103700700002003721700002003741700001703761700001903778700001803797700002203815700001803837700001903855700002803874700002603902700002403928700001903952700001703971700002203988700002204010700001904032700002504051700002204076700001904098700002004117700001904137700002204156700002204178700001904200700001604219700002304235700002504258700001804283700001404301700002404315700001704339700002104356700002404377700001704401700001704418700001904435700001904454700002404473700002004497700002104517700001804538700002104556700001904577700001904596700002904615700002404644700002104668700002404689700002304713700001804736700002204754700002004776700002304796700002004819700002404839700001704863700002004880700001604900700002004916700002104936700001804957700002604975700001905001700002105020700002505041700002205066700002005088700002105108700001805129700002405147700002105171700001505192700002305207856003605230 2013 eng d a1533-345000aCommon variants in Mendelian kidney disease genes and their association with renal function.0 aCommon variants in Mendelian kidney disease genes and their asso c2013 Dec a2105-170 v243 aMany common genetic variants identified by genome-wide association studies for complex traits map to genes previously linked to rare inherited Mendelian disorders. A systematic analysis of common single-nucleotide polymorphisms (SNPs) in genes responsible for Mendelian diseases with kidney phenotypes has not been performed. We thus developed a comprehensive database of genes for Mendelian kidney conditions and evaluated the association between common genetic variants within these genes and kidney function in the general population. Using the Online Mendelian Inheritance in Man database, we identified 731 unique disease entries related to specific renal search terms and confirmed a kidney phenotype in 218 of these entries, corresponding to mutations in 258 genes. We interrogated common SNPs (minor allele frequency >5%) within these genes for association with the estimated GFR in 74,354 European-ancestry participants from the CKDGen Consortium. However, the top four candidate SNPs (rs6433115 at LRP2, rs1050700 at TSC1, rs249942 at PALB2, and rs9827843 at ROBO2) did not achieve significance in a stage 2 meta-analysis performed in 56,246 additional independent individuals, indicating that these common SNPs are not associated with estimated GFR. The effect of less common or rare variants in these genes on kidney function in the general population and disease-specific cohorts requires further research.
10aDatabases, Genetic10aEuropean Continental Ancestry Group10aGene Frequency10aGenetic Variation10aGenome-Wide Association Study10aHumans10aKidney10aMendelian Randomization Analysis10aPhenotype10aPolymorphism, Single Nucleotide10aRenal Insufficiency, Chronic1 aParsa, Afshin1 aFuchsberger, Christian1 aKöttgen, Anna1 aO'Seaghdha, Conall, M1 aPattaro, Cristian1 ade Andrade, Mariza1 aChasman, Daniel, I1 aTeumer, Alexander1 aEndlich, Karlhans1 aOlden, Matthias1 aChen, Ming-Huei1 aTin, Adrienne1 aKim, Young, J1 aTaliun, Daniel1 aLi, Man1 aFeitosa, Mary1 aGorski, Mathias1 aYang, Qiong1 aHundertmark, Claudia1 aFoster, Meredith, C1 aGlazer, Nicole1 aIsaacs, Aaron1 aRao, Madhumathi1 aSmith, Albert, V1 aO'Connell, Jeffrey, R1 aStruchalin, Maksim1 aTanaka, Toshiko1 aLi, Guo1 aHwang, Shih-Jen1 aAtkinson, Elizabeth, J1 aLohman, Kurt1 aCornelis, Marilyn, C1 aJohansson, Asa1 aTönjes, Anke1 aDehghan, Abbas1 aCouraki, Vincent1 aHolliday, Elizabeth, G1 aSorice, Rossella1 aKutalik, Zoltán1 aLehtimäki, Terho1 aEsko, Tõnu1 aDeshmukh, Harshal1 aUlivi, Sheila1 aChu, Audrey, Y1 aMurgia, Federico1 aTrompet, Stella1 aImboden, Medea1 aKollerits, Barbara1 aPistis, Giorgio1 aHarris, Tamara, B1 aLauner, Lenore, J1 aAspelund, Thor1 aEiriksdottir, Gudny1 aMitchell, Braxton, D1 aBoerwinkle, Eric1 aSchmidt, Helena1 aHofer, Edith1 aHu, Frank1 aDemirkan, Ayse1 aOostra, Ben, A1 aTurner, Stephen, T1 aDing, Jingzhong1 aAndrews, Jeanette, S1 aFreedman, Barry, I1 aGiulianini, Franco1 aKoenig, Wolfgang1 aIllig, Thomas1 aDöring, Angela1 aWichmann, H-Erich1 aZgaga, Lina1 aZemunik, Tatijana1 aBoban, Mladen1 aMinelli, Cosetta1 aWheeler, Heather, E1 aIgl, Wilmar1 aZaboli, Ghazal1 aWild, Sarah, H1 aWright, Alan, F1 aCampbell, Harry1 aEllinghaus, David1 aNöthlings, Ute1 aJacobs, Gunnar1 aBiffar, Reiner1 aErnst, Florian1 aHomuth, Georg1 aKroemer, Heyo, K1 aNauck, Matthias1 aStracke, Sylvia1 aVölker, Uwe1 aVölzke, Henry1 aKovacs, Peter1 aStumvoll, Michael1 aMägi, Reedik1 aHofman, Albert1 aUitterlinden, André, G1 aRivadeneira, Fernando1 aAulchenko, Yurii, S1 aPolasek, Ozren1 aHastie, Nick1 aVitart, Veronique1 aHelmer, Catherine1 aWang, Jie, Jin1 aStengel, Bénédicte1 aRuggiero, Daniela1 aBergmann, Sven1 aKähönen, Mika1 aViikari, Jorma1 aNikopensius, Tiit1 aProvince, Michael1 aColhoun, Helen1 aDoney, Alex1 aRobino, Antonietta1 aKrämer, Bernhard, K1 aPortas, Laura1 aFord, Ian1 aBuckley, Brendan, M1 aAdam, Martin1 aThun, Gian-Andri1 aPaulweber, Bernhard1 aHaun, Margot1 aSala, Cinzia1 aMitchell, Paul1 aCiullo, Marina1 aVollenweider, Peter1 aRaitakari, Olli1 aMetspalu, Andres1 aPalmer, Colin1 aGasparini, Paolo1 aPirastu, Mario1 aJukema, Wouter1 aProbst-Hensch, Nicole, M1 aKronenberg, Florian1 aToniolo, Daniela1 aGudnason, Vilmundur1 aShuldiner, Alan, R1 aCoresh, Josef1 aSchmidt, Reinhold1 aFerrucci, Luigi1 aDuijn, Cornelia, M1 aBorecki, Ingrid1 aKardia, Sharon, L R1 aLiu, Yongmei1 aCurhan, Gary, C1 aRudan, Igor1 aGyllensten, Ulf1 aWilson, James, F1 aFranke, Andre1 aPramstaller, Peter, P1 aRettig, Rainer1 aProkopenko, Inga1 aWitteman, Jacqueline1 aHayward, Caroline1 aRidker, Paul, M1 aBochud, Murielle1 aHeid, Iris, M1 aSiscovick, David, S1 aFox, Caroline, S1 aKao, Linda1 aBöger, Carsten, A uhttps://chs-nhlbi.org/node/628806047nas a2201393 4500008004100000022001400041245010400055210006900159260000900228300001300237490000600250520209200256653001402348653003902362653002602401653004002427653001102467653001702478653003402495653001102529653000902540653001202549653003602561653002002597100001802617700001902635700002002654700001802674700002302692700001902715700002402734700002102758700002202779700001502801700002802816700002502844700001602869700002202885700002202907700002302929700001802952700001202970700002802982700001803010700001503028700002403043700002403067700002803091700001903119700001703138700002503155700001603180700002203196700001903218700002003237700002303257700002203280700002803302700001703330700002003347700002303367700001503390700001703405700002003422700002103442700001803463700002203481700002303503700002303526700003103549700002203580700002003602700001703622700002803639700001403667700002403681700002403705700002203729700002103751700001803772700001403790700003203804700002503836700002403861700001703885700002403902700002103926700002103947700002803968700002203996700002004018700002104038700002104059700002704080700002204107700002304129700002104152700002404173700001704197700002404214700002304238700002204261700002104283700002504304700002304329700002204352700001904374700002204393700002104415700002804436700002304464700001804487700002204505700002504527700002504552700001904577700002104596856003604617 2013 eng d a1553-740400aGenome-wide association of body fat distribution in African ancestry populations suggests new loci.0 aGenomewide association of body fat distribution in African ances c2013 ae10036810 v93 aCentral obesity, measured by waist circumference (WC) or waist-hip ratio (WHR), is a marker of body fat distribution. Although obesity disproportionately affects minority populations, few studies have conducted genome-wide association study (GWAS) of fat distribution among those of predominantly African ancestry (AA). We performed GWAS of WC and WHR, adjusted and unadjusted for BMI, in up to 33,591 and 27,350 AA individuals, respectively. We identified loci associated with fat distribution in AA individuals using meta-analyses of GWA results for WC and WHR (stage 1). Overall, 25 SNPs with single genomic control (GC)-corrected p-values<5.0 × 10(-6) were followed-up (stage 2) in AA with WC and with WHR. Additionally, we interrogated genomic regions of previously identified European ancestry (EA) WHR loci among AA. In joint analysis of association results including both Stage 1 and 2 cohorts, 2 SNPs demonstrated association, rs2075064 at LHX2, p = 2.24×10(-8) for WC-adjusted-for-BMI, and rs6931262 at RREB1, p = 2.48×10(-8) for WHR-adjusted-for-BMI. However, neither signal was genome-wide significant after double GC-correction (LHX2: p = 6.5 × 10(-8); RREB1: p = 5.7 × 10(-8)). Six of fourteen previously reported loci for waist in EA populations were significant (p<0.05 divided by the number of independent SNPs within the region) in AA studied here (TBX15-WARS2, GRB14, ADAMTS9, LY86, RSPO3, ITPR2-SSPN). Further, we observed associations with metabolic traits: rs13389219 at GRB14 associated with HDL-cholesterol, triglycerides, and fasting insulin, and rs13060013 at ADAMTS9 with HDL-cholesterol and fasting insulin. Finally, we observed nominal evidence for sexual dimorphism, with stronger results in AA women at the GRB14 locus (p for interaction = 0.02). In conclusion, we identified two suggestive loci associated with fat distribution in AA populations in addition to confirming 6 loci previously identified in populations of EA. These findings reinforce the concept that there are fat distribution loci that are independent of generalized adiposity.
10aAdiposity10aAfrican Continental Ancestry Group10aBody Fat Distribution10aEuropean Continental Ancestry Group10aFemale10aGenetic Loci10aGenome-Wide Association Study10aHumans10aMale10aObesity10aPolymorphism, Single Nucleotide10aWaist-Hip Ratio1 aLiu, Ching-Ti1 aMonda, Keri, L1 aTaylor, Kira, C1 aLange, Leslie1 aDemerath, Ellen, W1 aPalmas, Walter1 aWojczynski, Mary, K1 aEllis, Jaclyn, C1 aVitolins, Mara, Z1 aLiu, Simin1 aPapanicolaou, George, J1 aIrvin, Marguerite, R1 aXue, Luting1 aGriffin, Paula, J1 aNalls, Michael, A1 aAdeyemo, Adebowale1 aLiu, Jiankang1 aLi, Guo1 aRuiz-Narvaez, Edward, A1 aChen, Wei-Min1 aChen, Fang1 aHenderson, Brian, E1 aMillikan, Robert, C1 aAmbrosone, Christine, B1 aStrom, Sara, S1 aGuo, Xiuqing1 aAndrews, Jeanette, S1 aSun, Yan, V1 aMosley, Thomas, H1 aYanek, Lisa, R1 aShriner, Daniel1 aHaritunians, Talin1 aRotter, Jerome, I1 aSpeliotes, Elizabeth, K1 aSmith, Megan1 aRosenberg, Lynn1 aMychaleckyj, Josyf1 aNayak, Uma1 aSpruill, Ida1 aGarvey, Timothy1 aPettaway, Curtis1 aNyante, Sarah1 aBandera, Elisa, V1 aBritton, Angela, F1 aZonderman, Alan, B1 aRasmussen-Torvik, Laura, J1 aChen, Yii-Der Ida1 aDing, Jingzhong1 aLohman, Kurt1 aKritchevsky, Stephen, B1 aZhao, Wei1 aPeyser, Patricia, A1 aKardia, Sharon, L R1 aKabagambe, Edmond1 aBroeckel, Ulrich1 aChen, Guanjie1 aZhou, Jie1 aWassertheil-Smoller, Sylvia1 aNeuhouser, Marian, L1 aRampersaud, Evadnie1 aPsaty, Bruce1 aKooperberg, Charles1 aManson, JoAnn, E1 aKuller, Lewis, H1 aOchs-Balcom, Heather, M1 aJohnson, Karen, C1 aSucheston, Lara1 aOrdovas, Jose, M1 aPalmer, Julie, R1 aHaiman, Christopher, A1 aMcKnight, Barbara1 aHoward, Barbara, V1 aBecker, Diane, M1 aBielak, Lawrence, F1 aLiu, Yongmei1 aAllison, Matthew, A1 aGrant, Struan, F A1 aBurke, Gregory, L1 aPatel, Sanjay, R1 aSchreiner, Pamela, J1 aBorecki, Ingrid, B1 aEvans, Michele, K1 aTaylor, Herman1 aSale, Michèle, M1 aHoward, Virginia1 aCarlson, Christopher, S1 aRotimi, Charles, N1 aCushman, Mary1 aHarris, Tamara, B1 aReiner, Alexander, P1 aCupples, Adrienne, L1 aNorth, Kari, E1 aFox, Caroline, S uhttps://chs-nhlbi.org/node/628705039nas a2201297 4500008004100000022001400041245006000055210005600115260001600171300001100187490000700198520149400205653000901699653002201708653003101730653001501761653001101776653003801787653003401825653001101859653000901870653001601879653003601895100001501931700001901946700001601965700002501981700002202006700002502028700001602053700001802069700001802087700002002105700001702125700002302142700002202165700002202187700001602209700002302225700001202248700002502260700002402285700002202309700002002331700002302351700002002374700001702394700002402411700002202435700001902457700001702476700001902493700002102512700002202533700001702555700001802572700002002590700002202610700002202632700001902654700002302673700002002696700002002716700002002736700002402756700001902780700001802799700001902817700002602836700002102862700001702883700002002900700002302920700001802943700002102961700002402982700001703006700001903023700001903042700002003061700002303081700002103104700001703125700001803142700002003160700001903180700002303199700002503222700002103247700002303268700002803291700001903319700002103338700002003359700002303379700002103402700001903423700002303442700002403465700002303489700002003512700002303532700001903555700002203574700002403596700002203620700002003642700002203662700002103684856003603705 2013 eng d a1873-240200aA genome-wide association study of depressive symptoms.0 agenomewide association study of depressive symptoms c2013 Apr 01 a667-780 v733 aBACKGROUND: Depression is a heritable trait that exists on a continuum of varying severity and duration. Yet, the search for genetic variants associated with depression has had few successes. We exploit the entire continuum of depression to find common variants for depressive symptoms.
METHODS: In this genome-wide association study, we combined the results of 17 population-based studies assessing depressive symptoms with the Center for Epidemiological Studies Depression Scale. Replication of the independent top hits (p<1×10(-5)) was performed in five studies assessing depressive symptoms with other instruments. In addition, we performed a combined meta-analysis of all 22 discovery and replication studies.
RESULTS: The discovery sample comprised 34,549 individuals (mean age of 66.5) and no loci reached genome-wide significance (lowest p = 1.05×10(-7)). Seven independent single nucleotide polymorphisms were considered for replication. In the replication set (n = 16,709), we found suggestive association of one single nucleotide polymorphism with depressive symptoms (rs161645, 5q21, p = 9.19×10(-3)). This 5q21 region reached genome-wide significance (p = 4.78×10(-8)) in the overall meta-analysis combining discovery and replication studies (n = 51,258).
CONCLUSIONS: The results suggest that only a large sample comprising more than 50,000 subjects may be sufficiently powered to detect genes for depressive symptoms.
10aAged10aAged, 80 and over10aChromosomes, Human, Pair 510aDepression10aFemale10aGenetic Predisposition to Disease10aGenome-Wide Association Study10aHumans10aMale10aMiddle Aged10aPolymorphism, Single Nucleotide1 aHek, Karin1 aDemirkan, Ayse1 aLahti, Jari1 aTerracciano, Antonio1 aTeumer, Alexander1 aCornelis, Marilyn, C1 aAmin, Najaf1 aBakshis, Erin1 aBaumert, Jens1 aDing, Jingzhong1 aLiu, Yongmei1 aMarciante, Kristin1 aMeirelles, Osorio1 aNalls, Michael, A1 aSun, Yan, V1 aVogelzangs, Nicole1 aYu, Lei1 aBandinelli, Stefania1 aBenjamin, Emelia, J1 aBennett, David, A1 aBoomsma, Dorret1 aCannas, Alessandra1 aCoker, Laura, H1 ade Geus, Eco1 aDe Jager, Philip, L1 aDiez-Roux, Ana, V1 aPurcell, Shaun1 aHu, Frank, B1 aRimma, Eric, B1 aHunter, David, J1 aJensen, Majken, K1 aCurhan, Gary1 aRice, Kenneth1 aPenman, Alan, D1 aRotter, Jerome, I1 aSotoodehnia, Nona1 aEmeny, Rebecca1 aEriksson, Johan, G1 aEvans, Denis, A1 aFerrucci, Luigi1 aFornage, Myriam1 aGudnason, Vilmundur1 aHofman, Albert1 aIllig, Thomas1 aKardia, Sharon1 aKelly-Hayes, Margaret1 aKoenen, Karestan1 aKraft, Peter1 aKuningas, Maris1 aMassaro, Joseph, M1 aMelzer, David1 aMulas, Antonella1 aMulder, Cornelis, L1 aMurray, Anna1 aOostra, Ben, A1 aPalotie, Aarno1 aPenninx, Brenda1 aPetersmann, Astrid1 aPilling, Luke, C1 aPsaty, Bruce1 aRawal, Rajesh1 aReiman, Eric, M1 aSchulz, Andrea1 aShulman, Joshua, M1 aSingleton, Andrew, B1 aSmith, Albert, V1 aSutin, Angelina, R1 aUitterlinden, André, G1 aVölzke, Henry1 aWiden, Elisabeth1 aYaffe, Kristine1 aZonderman, Alan, B1 aCucca, Francesco1 aHarris, Tamara1 aLadwig, Karl-Heinz1 aLlewellyn, David, J1 aRäikkönen, Katri1 aTanaka, Toshiko1 aDuijn, Cornelia, M1 aGrabe, Hans, J1 aLauner, Lenore, J1 aLunetta, Kathryn, L1 aMosley, Thomas, H1 aNewman, Anne, B1 aTiemeier, Henning1 aMurabito, Joanne uhttps://chs-nhlbi.org/node/607009008nas a2202809 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2013 eng d a1546-171800aA meta-analysis identifies new loci associated with body mass index in individuals of African ancestry.0 ametaanalysis identifies new loci associated with body mass index c2013 Jun a690-60 v453 aGenome-wide association studies (GWAS) have identified 36 loci associated with body mass index (BMI), predominantly in populations of European ancestry. We conducted a meta-analysis to examine the association of >3.2 million SNPs with BMI in 39,144 men and women of African ancestry and followed up the most significant associations in an additional 32,268 individuals of African ancestry. We identified one new locus at 5q33 (GALNT10, rs7708584, P = 3.4 × 10(-11)) and another at 7p15 when we included data from the GIANT consortium (MIR148A-NFE2L3, rs10261878, P = 1.2 × 10(-10)). We also found suggestive evidence of an association at a third locus at 6q16 in the African-ancestry sample (KLHL32, rs974417, P = 6.9 × 10(-8)). Thirty-two of the 36 previously established BMI variants showed directionally consistent effect estimates in our GWAS (binomial P = 9.7 × 10(-7)), five of which reached genome-wide significance. These findings provide strong support for shared BMI loci across populations, as well as for the utility of studying ancestrally diverse populations.
10aAfrican Americans10aBody Mass Index10aCase-Control Studies10aGene Frequency10aGenetic Loci10aGenetic Predisposition to Disease10aGenome-Wide Association Study10aHumans10aLinkage Disequilibrium10aObesity10aPolymorphism, Single Nucleotide1 aMonda, Keri, L1 aChen, Gary, K1 aTaylor, Kira, C1 aPalmer, Cameron1 aEdwards, Todd, L1 aLange, Leslie, A1 aC Y Ng, Maggie1 aAdeyemo, Adebowale, A1 aAllison, Matthew, A1 aBielak, Lawrence, F1 aChen, Guanjie1 aGraff, Mariaelisa1 aIrvin, Marguerite, R1 aRhie, Suhn, K1 aLi, Guo1 aLiu, Yongmei1 aLiu, Youfang1 aLu, Yingchang1 aNalls, Michael, A1 aSun, Yan, V1 aWojczynski, Mary, K1 aYanek, Lisa, R1 aAldrich, Melinda, C1 aAdemola, Adeyinka1 aAmos, Christopher, I1 aBandera, Elisa, V1 aBock, Cathryn, H1 aBritton, Angela1 aBroeckel, Ulrich1 aCai, Quiyin1 aCaporaso, Neil, E1 aCarlson, Chris, S1 aCarpten, John1 aCasey, Graham1 aChen, Wei-Min1 aChen, Fang1 aChen, Yii-der, I1 aChiang, Charleston, W K1 aCoetzee, Gerhard, A1 aDemerath, Ellen1 aDeming-Halverson, Sandra, L1 aDriver, Ryan, W1 aDubbert, Patricia1 aFeitosa, Mary, F1 aFeng, Ye1 aFreedman, Barry, I1 aGillanders, Elizabeth, M1 aGottesman, Omri1 aGuo, Xiuqing1 aHaritunians, Talin1 aHarris, Tamara1 aHarris, Curtis, C1 aHennis, Anselm, J M1 aHernandez, Dena, G1 aMcNeill, Lorna, H1 aHoward, Timothy, D1 aHoward, Barbara, V1 aHoward, Virginia, J1 aJohnson, Karen, C1 aKang, Sun, J1 aKeating, Brendan, J1 aKolb, Suzanne1 aKuller, Lewis, H1 aKutlar, Abdullah1 aLangefeld, Carl, D1 aLettre, Guillaume1 aLohman, Kurt1 aLotay, Vaneet1 aLyon, Helen1 aManson, JoAnn, E1 aMaixner, William1 aMeng, Yan, A1 aMonroe, Kristine, R1 aMorhason-Bello, Imran1 aMurphy, Adam, B1 aMychaleckyj, Josyf, C1 aNadukuru, Raj1 aNathanson, Katherine, L1 aNayak, Uma1 aN'diaye, Amidou1 aNemesure, Barbara1 aWu, Suh-Yuh1 aLeske, Cristina1 aNeslund-Dudas, Christine1 aNeuhouser, Marian1 aNyante, Sarah1 aOchs-Balcom, Heather1 aOgunniyi, Adesola1 aOgundiran, Temidayo, O1 aOjengbede, Oladosu1 aOlopade, Olufunmilayo, I1 aPalmer, Julie, R1 aRuiz-Narvaez, Edward, A1 aPalmer, Nicholette, D1 aPress, Michael, F1 aRampersaud, Evandine1 aRasmussen-Torvik, Laura, J1 aRodriguez-Gil, Jorge, L1 aSalako, Babatunde1 aSchadt, Eric, E1 aSchwartz, Ann, G1 aShriner, Daniel, A1 aSiscovick, David1 aSmith, Shad, B1 aWassertheil-Smoller, Sylvia1 aSpeliotes, Elizabeth, K1 aSpitz, Margaret, R1 aSucheston, Lara1 aTaylor, Herman1 aTayo, Bamidele, O1 aTucker, Margaret, A1 aVan Den Berg, David, J1 aEdwards, Digna, R Velez1 aWang, Zhaoming1 aWiencke, John, K1 aWinkler, Thomas, W1 aWitte, John, S1 aWrensch, Margaret1 aWu, Xifeng1 aYang, James, J1 aLevin, Albert, M1 aYoung, Taylor, R1 aZakai, Neil, A1 aCushman, Mary1 aZanetti, Krista, A1 aZhao, Jing Hua1 aZhao, Wei1 aZheng, Yonglan1 aZhou, Jie1 aZiegler, Regina, G1 aZmuda, Joseph, M1 aFernandes, Jyotika, K1 aGilkeson, Gary, S1 aKamen, Diane, L1 aHunt, Kelly, J1 aSpruill, Ida, J1 aAmbrosone, Christine, B1 aAmbs, Stefan1 aArnett, Donna, K1 aAtwood, Larry1 aBecker, Diane, M1 aBerndt, Sonja, I1 aBernstein, Leslie1 aBlot, William, J1 aBorecki, Ingrid, B1 aBottinger, Erwin, P1 aBowden, Donald, W1 aBurke, Gregory1 aChanock, Stephen, J1 aCooper, Richard, S1 aDing, Jingzhong1 aDuggan, David1 aEvans, Michele, K1 aFox, Caroline1 aGarvey, Timothy1 aBradfield, Jonathan, P1 aHakonarson, Hakon1 aGrant, Struan, F A1 aHsing, Ann1 aChu, Lisa1 aHu, Jennifer, J1 aHuo, Dezheng1 aIngles, Sue, A1 aJohn, Esther, M1 aJordan, Joanne, M1 aKabagambe, Edmond, K1 aKardia, Sharon, L R1 aKittles, Rick, A1 aGoodman, Phyllis, J1 aKlein, Eric, A1 aKolonel, Laurence, N1 aLe Marchand, Loïc1 aLiu, Simin1 aMcKnight, Barbara1 aMillikan, Robert, C1 aMosley, Thomas, H1 aPadhukasahasram, Badri1 aWilliams, Keoki1 aPatel, Sanjay, R1 aPeters, Ulrike1 aPettaway, Curtis, A1 aPeyser, Patricia, A1 aPsaty, Bruce, M1 aRedline, Susan1 aRotimi, Charles, N1 aRybicki, Benjamin, A1 aSale, Michèle, M1 aSchreiner, Pamela, J1 aSignorello, Lisa, B1 aSingleton, Andrew, B1 aStanford, Janet, L1 aStrom, Sara, S1 aThun, Michael, J1 aVitolins, Mara1 aZheng, Wei1 aMoore, Jason, H1 aWilliams, Scott, M1 aKetkar, Shamika1 aZhu, Xiaofeng1 aZonderman, Alan, B1 aKooperberg, Charles1 aPapanicolaou, George, J1 aHenderson, Brian, E1 aReiner, Alex, P1 aHirschhorn, Joel, N1 aLoos, Ruth, J F1 aNorth, Kari, E1 aHaiman, Christopher, A1 aNABEC Consortium1 aUKBEC Consortium1 aBioBank Japan Project1 aAGEN Consortium uhttps://chs-nhlbi.org/node/607805590nas a2201609 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2013 eng d a1553-740400aMeta-analysis of genome-wide association studies identifies six new Loci for serum calcium concentrations.0 aMetaanalysis of genomewide association studies identifies six ne c2013 ae10037960 v93 aCalcium is vital to the normal functioning of multiple organ systems and its serum concentration is tightly regulated. Apart from CASR, the genes associated with serum calcium are largely unknown. We conducted a genome-wide association meta-analysis of 39,400 individuals from 17 population-based cohorts and investigated the 14 most strongly associated loci in ≤ 21,679 additional individuals. Seven loci (six new regions) in association with serum calcium were identified and replicated. Rs1570669 near CYP24A1 (P = 9.1E-12), rs10491003 upstream of GATA3 (P = 4.8E-09) and rs7481584 in CARS (P = 1.2E-10) implicate regions involved in Mendelian calcemic disorders: Rs1550532 in DGKD (P = 8.2E-11), also associated with bone density, and rs7336933 near DGKH/KIAA0564 (P = 9.1E-10) are near genes that encode distinct isoforms of diacylglycerol kinase. Rs780094 is in GCKR. We characterized the expression of these genes in gut, kidney, and bone, and demonstrate modulation of gene expression in bone in response to dietary calcium in mice. Our results shed new light on the genetics of calcium homeostasis.
10aAnimals10aBone and Bones10aBone Density10aCalcium10aEuropean Continental Ancestry Group10aGene Expression Regulation10aGenome-Wide Association Study10aHomeostasis10aHumans10aKidney10aMice10aPolymorphism, Single Nucleotide1 aO'Seaghdha, Conall, M1 aWu, Hongsheng1 aYang, Qiong1 aKapur, Karen1 aGuessous, Idris1 aZuber, Annie, Mercier1 aKöttgen, Anna1 aStoudmann, Candice1 aTeumer, Alexander1 aKutalik, Zoltán1 aMangino, Massimo1 aDehghan, Abbas1 aZhang, Weihua1 aEiriksdottir, Gudny1 aLi, Guo1 aTanaka, Toshiko1 aPortas, Laura1 aLopez, Lorna, M1 aHayward, Caroline1 aLohman, Kurt1 aMatsuda, Koichi1 aPadmanabhan, Sandosh1 aFirsov, Dmitri1 aSorice, Rossella1 aUlivi, Sheila1 aBrockhaus, Catharina1 aKleber, Marcus, E1 aMahajan, Anubha1 aErnst, Florian, D1 aGudnason, Vilmundur1 aLauner, Lenore, J1 aMace, Aurelien1 aBoerwinckle, Eric1 aArking, Dan, E1 aTanikawa, Chizu1 aNakamura, Yusuke1 aBrown, Morris, J1 aGaspoz, Jean-Michel1 aTheler, Jean-Marc1 aSiscovick, David, S1 aPsaty, Bruce, M1 aBergmann, Sven1 aVollenweider, Peter1 aVitart, Veronique1 aWright, Alan, F1 aZemunik, Tatijana1 aBoban, Mladen1 aKolcic, Ivana1 aNavarro, Pau1 aBrown, Edward, M1 aEstrada, Karol1 aDing, Jingzhong1 aHarris, Tamara, B1 aBandinelli, Stefania1 aHernandez, Dena1 aSingleton, Andrew, B1 aGirotto, Giorgia1 aRuggiero, Daniela1 ad'Adamo, Adamo, Pio1 aRobino, Antonietta1 aMeitinger, Thomas1 aMeisinger, Christa1 aDavies, Gail1 aStarr, John, M1 aChambers, John, C1 aBoehm, Bernhard, O1 aWinkelmann, Bernhard, R1 aHuang, Jie1 aMurgia, Federico1 aWild, Sarah, H1 aCampbell, Harry1 aMorris, Andrew, P1 aFranco, Oscar, H1 aHofman, Albert1 aUitterlinden, André, G1 aRivadeneira, Fernando1 aVölker, Uwe1 aHannemann, Anke1 aBiffar, Reiner1 aHoffmann, Wolfgang1 aShin, So-Youn1 aLescuyer, Pierre1 aHenry, Hughes1 aSchurmann, Claudia1 aMunroe, Patricia, B1 aGasparini, Paolo1 aPirastu, Nicola1 aCiullo, Marina1 aGieger, Christian1 aMärz, Winfried1 aLind, Lars1 aSpector, Tim, D1 aSmith, Albert, V1 aRudan, Igor1 aWilson, James, F1 aPolasek, Ozren1 aDeary, Ian, J1 aPirastu, Mario1 aFerrucci, Luigi1 aLiu, Yongmei1 aKestenbaum, Bryan1 aKooner, Jaspal, S1 aWitteman, Jacqueline, C M1 aNauck, Matthias1 aKao, Linda, W H1 aWallaschofski, Henri1 aBonny, Olivier1 aFox, Caroline, S1 aBochud, Murielle1 aSUNLIGHT Consortium1 aGEFOS Consortium uhttps://chs-nhlbi.org/node/629104872nas a2201453 4500008004100000022001400041245010900055210006900164260001600233300000900249490000600258520072200264653002100986653003401007653001101041653005101052653002101103653003601124100001801160700002001178700002501198700002301223700001601246700002101262700002301283700001701306700002501323700002401348700002201372700002201394700001901416700001701435700002001452700001201472700002101484700002101505700002801526700002301554700002501577700002001602700002401622700001401646700002601660700002001686700001901706700002401725700001701749700001801766700001901784700002201803700001801825700002201843700001901865700002601884700002101910700002501931700002401956700001801980700002501998700002202023700002102045700001702066700002402083700001602107700001602123700001902139700002202158700001602180700001902196700001902215700001802234700002302252700001902275700002102294700001802315700002102333700002002354700003002374700002702404700001602431700002202447700001802469700001602487700001702503700002302520700001602543700002202559700002102581700002602602700002002628700002502648700002802673700002402701700002302725700002202748700001902770700002302789700002302812700002202835700002002857700002302877700002802900700001902928700002602947700002002973700002102993700002003014700002403034700001703058700002103075700002803096700002203124700002203146700002003168700002303188700002403211700002203235700001903257700002203276700001903298700002303317710004203340856003603382 2014 eng d a2041-172300aPharmacogenetic meta-analysis of genome-wide association studies of LDL cholesterol response to statins.0 aPharmacogenetic metaanalysis of genomewide association studies o c2014 Oct 28 a50680 v53 aStatins effectively lower LDL cholesterol levels in large studies and the observed interindividual response variability may be partially explained by genetic variation. Here we perform a pharmacogenetic meta-analysis of genome-wide association studies (GWAS) in studies addressing the LDL cholesterol response to statins, including up to 18,596 statin-treated subjects. We validate the most promising signals in a further 22,318 statin recipients and identify two loci, SORT1/CELSR2/PSRC1 and SLCO1B1, not previously identified in GWAS. Moreover, we confirm the previously described associations with APOE and LPA. Our findings advance the understanding of the pharmacogenetic architecture of statin response.
10aCholesterol, LDL10aGenome-Wide Association Study10aHumans10aHydroxymethylglutaryl-CoA Reductase Inhibitors10aPharmacogenetics10aPolymorphism, Single Nucleotide1 aPostmus, Iris1 aTrompet, Stella1 aDeshmukh, Harshal, A1 aBarnes, Michael, R1 aLi, Xiaohui1 aWarren, Helen, R1 aChasman, Daniel, I1 aZhou, Kaixin1 aArsenault, Benoit, J1 aDonnelly, Louise, A1 aWiggins, Kerri, L1 aAvery, Christy, L1 aGriffin, Paula1 aFeng, QiPing1 aTaylor, Kent, D1 aLi, Guo1 aEvans, Daniel, S1 aSmith, Albert, V1 ade Keyser, Catherine, E1 aJohnson, Andrew, D1 ade Craen, Anton, J M1 aStott, David, J1 aBuckley, Brendan, M1 aFord, Ian1 aWestendorp, Rudi, G J1 aSlagboom, Eline1 aSattar, Naveed1 aMunroe, Patricia, B1 aSever, Peter1 aPoulter, Neil1 aStanton, Alice1 aShields, Denis, C1 aO'Brien, Eoin1 aShaw-Hawkins, Sue1 aChen, Y-D, Ida1 aNickerson, Deborah, A1 aSmith, Joshua, D1 aDubé, Marie, Pierre1 aBoekholdt, Matthijs1 aHovingh, Kees1 aKastelein, John, J P1 aMcKeigue, Paul, M1 aBetteridge, John1 aNeil, Andrew1 aDurrington, Paul, N1 aDoney, Alex1 aCarr, Fiona1 aMorris, Andrew1 aMcCarthy, Mark, I1 aGroop, Leif1 aAhlqvist, Emma1 aBis, Joshua, C1 aRice, Kenneth1 aSmith, Nicholas, L1 aLumley, Thomas1 aWhitsel, Eric, A1 aStürmer, Til1 aBoerwinkle, Eric1 aNgwa, Julius, S1 aO'Donnell, Christopher, J1 aVasan, Ramachandran, S1 aWei, Wei-Qi1 aWilke, Russell, A1 aLiu, Ching-Ti1 aSun, Fangui1 aGuo, Xiuqing1 aHeckbert, Susan, R1 aPost, Wendy1 aSotoodehnia, Nona1 aArnold, Alice, M1 aStafford, Jeanette, M1 aDing, Jingzhong1 aHerrington, David, M1 aKritchevsky, Stephen, B1 aEiriksdottir, Gudny1 aLauner, Leonore, J1 aHarris, Tamara, B1 aChu, Audrey, Y1 aGiulianini, Franco1 aMacFadyen, Jean, G1 aBarratt, Bryan, J1 aNyberg, Fredrik1 aStricker, Bruno, H1 aUitterlinden, André, G1 aHofman, Albert1 aRivadeneira, Fernando1 aEmilsson, Valur1 aFranco, Oscar, H1 aRidker, Paul, M1 aGudnason, Vilmundur1 aLiu, Yongmei1 aDenny, Joshua, C1 aBallantyne, Christie, M1 aRotter, Jerome, I1 aCupples, Adrienne1 aPsaty, Bruce, M1 aPalmer, Colin, N A1 aTardif, Jean-Claude1 aColhoun, Helen, M1 aHitman, Graham1 aKrauss, Ronald, M1 aJukema, Wouter1 aCaulfield, Mark, J1 aWelcome Trust Case Control Consortium uhttps://chs-nhlbi.org/node/659104238nas a2200829 4500008004100000022001400041245019000055210006900245260001300314300001100327490000700338520184100345100001802186700002302204700002202227700002002249700002402269700002202293700002102315700002102336700002202357700002402379700002002403700001502423700002102438700002002459700002002479700002202499700001902521700002102540700001602561700002102577700001902598700002502617700001502642700002402657700001702681700002402698700002002722700002502742700002502767700002002792700002002812700001702832700001702849700002102866700002002887700001902907700001802926700002102944700001702965700001902982700002203001700001903023700002403042700002003066700001603086700002103102700002303123700002003146700002303166700002003189700001903209700001903228700001803247700001803265700002303283700002003306700002103326700002503347856003603372 2016 eng d a1098-227200aAn Empirical Comparison of Joint and Stratified Frameworks for Studying G × E Interactions: Systolic Blood Pressure and Smoking in the CHARGE Gene-Lifestyle Interactions Working Group.0 aEmpirical Comparison of Joint and Stratified Frameworks for Stud c2016 Jul a404-150 v403 aStudying gene-environment (G × E) interactions is important, as they extend our knowledge of the genetic architecture of complex traits and may help to identify novel variants not detected via analysis of main effects alone. The main statistical framework for studying G × E interactions uses a single regression model that includes both the genetic main and G × E interaction effects (the "joint" framework). The alternative "stratified" framework combines results from genetic main-effect analyses carried out separately within the exposed and unexposed groups. Although there have been several investigations using theory and simulation, an empirical comparison of the two frameworks is lacking. Here, we compare the two frameworks using results from genome-wide association studies of systolic blood pressure for 3.2 million low frequency and 6.5 million common variants across 20 cohorts of European ancestry, comprising 79,731 individuals. Our cohorts have sample sizes ranging from 456 to 22,983 and include both family-based and population-based samples. In cohort-specific analyses, the two frameworks provided similar inference for population-based cohorts. The agreement was reduced for family-based cohorts. In meta-analyses, agreement between the two frameworks was less than that observed in cohort-specific analyses, despite the increased sample size. In meta-analyses, agreement depended on (1) the minor allele frequency, (2) inclusion of family-based cohorts in meta-analysis, and (3) filtering scheme. The stratified framework appears to approximate the joint framework well only for common variants in population-based cohorts. We conclude that the joint framework is the preferred approach and should be used to control false positives when dealing with low-frequency variants and/or family-based cohorts.
1 aSung, Yun, Ju1 aWinkler, Thomas, W1 aManning, Alisa, K1 aAschard, Hugues1 aGudnason, Vilmundur1 aHarris, Tamara, B1 aSmith, Albert, V1 aBoerwinkle, Eric1 aBrown, Michael, R1 aMorrison, Alanna, C1 aFornage, Myriam1 aLin, Li-An1 aRichard, Melissa1 aBartz, Traci, M1 aPsaty, Bruce, M1 aHayward, Caroline1 aPolasek, Ozren1 aMarten, Jonathan1 aRudan, Igor1 aFeitosa, Mary, F1 aKraja, Aldi, T1 aProvince, Michael, A1 aDeng, Xuan1 aFisher, Virginia, A1 aZhou, Yanhua1 aBielak, Lawrence, F1 aSmith, Jennifer1 aHuffman, Jennifer, E1 aPadmanabhan, Sandosh1 aSmith, Blair, H1 aDing, Jingzhong1 aLiu, Yongmei1 aLohman, Kurt1 aBouchard, Claude1 aRankinen, Tuomo1 aRice, Treva, K1 aArnett, Donna1 aSchwander, Karen1 aGuo, Xiuqing1 aPalmas, Walter1 aRotter, Jerome, I1 aAlfred, Tamuno1 aBottinger, Erwin, P1 aLoos, Ruth, J F1 aAmin, Najaf1 aFranco, Oscar, H1 aDuijn, Cornelia, M1 aVojinovic, Dina1 aChasman, Daniel, I1 aRidker, Paul, M1 aRose, Lynda, M1 aKardia, Sharon1 aZhu, Xiaofeng1 aRice, Kenneth1 aBorecki, Ingrid, B1 aRao, Dabeeru, C1 aGauderman, James1 aCupples, Adrienne, L uhttps://chs-nhlbi.org/node/714505010nas a2201129 4500008004100000022001400041245004800055210004700103260001300150300001200163490000600175520193900181100001902120700001902139700002502158700002102183700002502204700002402229700001702253700001202270700001902282700002302301700002902324700002302353700002302376700002102399700001802420700002102438700001702459700001902476700002002495700001702515700001302532700002102545700002002566700001402586700002302600700001802623700002002641700001902661700001602680700002602696700001402722700002102736700002002757700002202777700002302799700001902822700001902841700002002860700002502880700002502905700002502930700001502955700002002970700001802990700002403008700002803032700001903060700001903079700002003098700001603118700002303134700002303157700002503180700002503205700002303230700001803253700002103271700002103292700002503313700002003338700002003358700002003378700002403398700001803422700001903440700002403459700001903483700002203502700002303524700002203547700002403569700001803593700002603611700002603637700002103663700002103684700001603705700001703721700002603738700001803764700002003782700001703802700002503819856003603844 2016 eng d a1942-326800aEpigenetic Signatures of Cigarette Smoking.0 aEpigenetic Signatures of Cigarette Smoking c2016 Oct a436-4470 v93 aBACKGROUND: DNA methylation leaves a long-term signature of smoking exposure and is one potential mechanism by which tobacco exposure predisposes to adverse health outcomes, such as cancers, osteoporosis, lung, and cardiovascular disorders.
METHODS AND RESULTS: To comprehensively determine the association between cigarette smoking and DNA methylation, we conducted a meta-analysis of genome-wide DNA methylation assessed using the Illumina BeadChip 450K array on 15 907 blood-derived DNA samples from participants in 16 cohorts (including 2433 current, 6518 former, and 6956 never smokers). Comparing current versus never smokers, 2623 cytosine-phosphate-guanine sites (CpGs), annotated to 1405 genes, were statistically significantly differentially methylated at Bonferroni threshold of P<1×10(-7) (18 760 CpGs at false discovery rate <0.05). Genes annotated to these CpGs were enriched for associations with several smoking-related traits in genome-wide studies including pulmonary function, cancers, inflammatory diseases, and heart disease. Comparing former versus never smokers, 185 of the CpGs that differed between current and never smokers were significant P<1×10(-7) (2623 CpGs at false discovery rate <0.05), indicating a pattern of persistent altered methylation, with attenuation, after smoking cessation. Transcriptomic integration identified effects on gene expression at many differentially methylated CpGs.
CONCLUSIONS: Cigarette smoking has a broad impact on genome-wide methylation that, at many loci, persists many years after smoking cessation. Many of the differentially methylated genes were novel genes with respect to biological effects of smoking and might represent therapeutic targets for prevention or treatment of tobacco-related diseases. Methylation at these sites could also serve as sensitive and stable biomarkers of lifetime exposure to tobacco smoke.
1 aJoehanes, Roby1 aJust, Allan, C1 aMarioni, Riccardo, E1 aPilling, Luke, C1 aReynolds, Lindsay, M1 aMandaviya, Pooja, R1 aGuan, Weihua1 aXu, Tao1 aElks, Cathy, E1 aAslibekyan, Stella1 aMoreno-Macias, Hortensia1 aSmith, Jennifer, A1 aBrody, Jennifer, A1 aDhingra, Radhika1 aYousefi, Paul1 aPankow, James, S1 aKunze, Sonja1 aShah, Sonia, H1 aMcRae, Allan, F1 aLohman, Kurt1 aSha, Jin1 aAbsher, Devin, M1 aFerrucci, Luigi1 aZhao, Wei1 aDemerath, Ellen, W1 aBressler, Jan1 aGrove, Megan, L1 aHuan, Tianxiao1 aLiu, Chunyu1 aMendelson, Michael, M1 aYao, Chen1 aKiel, Douglas, P1 aPeters, Annette1 aWang-Sattler, Rui1 aVisscher, Peter, M1 aWray, Naomi, R1 aStarr, John, M1 aDing, Jingzhong1 aRodriguez, Carlos, J1 aWareham, Nicholas, J1 aIrvin, Marguerite, R1 aZhi, Degui1 aBarrdahl, Myrto1 aVineis, Paolo1 aAmbatipudi, Srikant1 aUitterlinden, André, G1 aHofman, Albert1 aSchwartz, Joel1 aColicino, Elena1 aHou, Lifang1 aVokonas, Pantel, S1 aHernandez, Dena, G1 aSingleton, Andrew, B1 aBandinelli, Stefania1 aTurner, Stephen, T1 aWare, Erin, B1 aSmith, Alicia, K1 aKlengel, Torsten1 aBinder, Elisabeth, B1 aPsaty, Bruce, M1 aTaylor, Kent, D1 aGharib, Sina, A1 aSwenson, Brenton, R1 aLiang, Liming1 aDeMeo, Dawn, L1 aO'Connor, George, T1 aHerceg, Zdenko1 aRessler, Kerry, J1 aConneely, Karen, N1 aSotoodehnia, Nona1 aKardia, Sharon, L R1 aMelzer, David1 aBaccarelli, Andrea, A1 avan Meurs, Joyce, B J1 aRomieu, Isabelle1 aArnett, Donna, K1 aOng, Ken, K1 aLiu, Yongmei1 aWaldenberger, Melanie1 aDeary, Ian, J1 aFornage, Myriam1 aLevy, Daniel1 aLondon, Stephanie, J uhttps://chs-nhlbi.org/node/726105079nas a2201093 4500008004100000022001400041245015000055210006900205260000900274300001300283490000700296520193900303653000902242653001902251653002502270653002802295653001102323653003802334653003402372653001102406653000902417653001602426653002602442653003602468653002402504100001902528700001902547700002202566700002602588700002402614700002502638700002002663700002302683700001902706700001702725700002402742700002002766700002202786700002102808700002802829700002302857700001402880700001802894700002002912700002802932700002402960700002702984700002303011700001903034700001903053700002303072700002203095700002403117700002303141700002003164700002403184700002303208700001803231700002403249700002103273700002403294700002003318700001603338700001503354700002203369700001903391700002003410700001903430700001703449700002203466700001903488700002603507700001903533700002003552700001803572700002403590700001703614700002003631700002603651700002203677700001703699700001703716700001803733700001903751700001903770700002003789700002403809700002103833700002403854700002003878700002103898700003003919856003603949 2016 eng d a1932-620300aGenome-Wide Association Study for Incident Myocardial Infarction and Coronary Heart Disease in Prospective Cohort Studies: The CHARGE Consortium.0 aGenomeWide Association Study for Incident Myocardial Infarction c2016 ae01449970 v113 aBACKGROUND: Data are limited on genome-wide association studies (GWAS) for incident coronary heart disease (CHD). Moreover, it is not known whether genetic variants identified to date also associate with risk of CHD in a prospective setting.
METHODS: We performed a two-stage GWAS analysis of incident myocardial infarction (MI) and CHD in a total of 64,297 individuals (including 3898 MI cases, 5465 CHD cases). SNPs that passed an arbitrary threshold of 5×10-6 in Stage I were taken to Stage II for further discovery. Furthermore, in an analysis of prognosis, we studied whether known SNPs from former GWAS were associated with total mortality in individuals who experienced MI during follow-up.
RESULTS: In Stage I 15 loci passed the threshold of 5×10-6; 8 loci for MI and 8 loci for CHD, for which one locus overlapped and none were reported in previous GWAS meta-analyses. We took 60 SNPs representing these 15 loci to Stage II of discovery. Four SNPs near QKI showed nominally significant association with MI (p-value<8.8×10-3) and three exceeded the genome-wide significance threshold when Stage I and Stage II results were combined (top SNP rs6941513: p = 6.2×10-9). Despite excellent power, the 9p21 locus SNP (rs1333049) was only modestly associated with MI (HR = 1.09, p-value = 0.02) and marginally with CHD (HR = 1.06, p-value = 0.08). Among an inception cohort of those who experienced MI during follow-up, the risk allele of rs1333049 was associated with a decreased risk of subsequent mortality (HR = 0.90, p-value = 3.2×10-3).
CONCLUSIONS: QKI represents a novel locus that may serve as a predictor of incident CHD in prospective studies. The association of the 9p21 locus both with increased risk of first myocardial infarction and longer survival after MI highlights the importance of study design in investigating genetic determinants of complex disorders.
10aAged10aCohort Studies10aCooperative Behavior10aCoronary Artery Disease10aFemale10aGenetic Predisposition to Disease10aGenome-Wide Association Study10aHumans10aMale10aMiddle Aged10aMyocardial Infarction10aPolymorphism, Single Nucleotide10aProspective Studies1 aDehghan, Abbas1 aBis, Joshua, C1 aWhite, Charles, C1 aSmith, Albert, Vernon1 aMorrison, Alanna, C1 aCupples, Adrienne, L1 aTrompet, Stella1 aChasman, Daniel, I1 aLumley, Thomas1 aVölker, Uwe1 aBuckley, Brendan, M1 aDing, Jingzhong1 aJensen, Majken, K1 aFolsom, Aaron, R1 aKritchevsky, Stephen, B1 aGirman, Cynthia, J1 aFord, Ian1 aDörr, Marcus1 aSalomaa, Veikko1 aUitterlinden, André, G1 aEiriksdottir, Gudny1 aVasan, Ramachandran, S1 aFranceschini, Nora1 aCarty, Cara, L1 aVirtamo, Jarmo1 aDemissie, Serkalem1 aAmouyel, Philippe1 aArveiler, Dominique1 aHeckbert, Susan, R1 aFerrieres, Jean1 aDucimetiere, Pierre1 aSmith, Nicholas, L1 aWang, Ying, A1 aSiscovick, David, S1 aRice, Kenneth, M1 aWiklund, Per-Gunnar1 aTaylor, Kent, D1 aEvans, Alun1 aKee, Frank1 aRotter, Jerome, I1 aKarvanen, Juha1 aKuulasmaa, Kari1 aHeiss, Gerardo1 aKraft, Peter1 aLauner, Lenore, J1 aHofman, Albert1 aMarkus, Marcello, R P1 aRose, Lynda, M1 aSilander, Kaisa1 aWagner, Peter1 aBenjamin, Emelia, J1 aLohman, Kurt1 aStott, David, J1 aRivadeneira, Fernando1 aHarris, Tamara, B1 aLevy, Daniel1 aLiu, Yongmei1 aRimm, Eric, B1 aJukema, Wouter1 aVölzke, Henry1 aRidker, Paul, M1 aBlankenberg, Stefan1 aFranco, Oscar, H1 aGudnason, Vilmundur1 aPsaty, Bruce, M1 aBoerwinkle, Eric1 aO'Donnell, Christopher, J uhttps://chs-nhlbi.org/node/700405111nas a2200877 4500008004100000022001400041245025000055210006900305260001300374300001100387490000800398520248000406653002202886653003902908653002102947653001902968653000902987653002002996653002603016653002403042653001603066653003103082653001103113653001103124653003603135653003003171653001803201100001303219700002003232700002003252700002003272700002403292700001903316700002103335700001403356700001703370700001303387700001903400700002103419700002303440700002003463700002303483700002103506700002003527700002803547700002303575700001503598700002203613700002103635700001303656700002503669700002003694700002503714700001603739700002203755700002603777700002003803700001903823700002503842700002203867700002503889700002103914700002003935700002003955700002503975700001704000700002204017700003004039700002004069700002404089700001804113700002104131700002104152700002404173856003604197 2016 eng d a1938-320700aInteraction of methylation-related genetic variants with circulating fatty acids on plasma lipids: a meta-analysis of 7 studies and methylation analysis of 3 studies in the Cohorts for Heart and Aging Research in Genomic Epidemiology consortium.0 aInteraction of methylationrelated genetic variants with circulat c2016 Feb a567-780 v1033 aBACKGROUND: DNA methylation is influenced by diet and single nucleotide polymorphisms (SNPs), and methylation modulates gene expression.
OBJECTIVE: We aimed to explore whether the gene-by-diet interactions on blood lipids act through DNA methylation.
DESIGN: We selected 7 SNPs on the basis of predicted relations in fatty acids, methylation, and lipids. We conducted a meta-analysis and a methylation and mediation analysis with the use of data from the CHARGE (Cohorts for Heart and Aging Research in Genomic Epidemiology) consortium and the ENCODE (Encyclopedia of DNA Elements) consortium.
RESULTS: On the basis of the meta-analysis of 7 cohorts in the CHARGE consortium, higher plasma HDL cholesterol was associated with fewer C alleles at ATP-binding cassette subfamily A member 1 (ABCA1) rs2246293 (β = -0.6 mg/dL, P = 0.015) and higher circulating eicosapentaenoic acid (EPA) (β = 3.87 mg/dL, P = 5.62 × 10(21)). The difference in HDL cholesterol associated with higher circulating EPA was dependent on genotypes at rs2246293, and it was greater for each additional C allele (β = 1.69 mg/dL, P = 0.006). In the GOLDN (Genetics of Lipid Lowering Drugs and Diet Network) study, higher ABCA1 promoter cg14019050 methylation was associated with more C alleles at rs2246293 (β = 8.84%, P = 3.51 × 10(18)) and lower circulating EPA (β = -1.46%, P = 0.009), and the mean difference in methylation of cg14019050 that was associated with higher EPA was smaller with each additional C allele of rs2246293 (β = -2.83%, P = 0.007). Higher ABCA1 cg14019050 methylation was correlated with lower ABCA1 expression (r = -0.61, P = 0.009) in the ENCODE consortium and lower plasma HDL cholesterol in the GOLDN study (r = -0.12, P = 0.0002). An additional mediation analysis was meta-analyzed across the GOLDN study, Cardiovascular Health Study, and the Multi-Ethnic Study of Atherosclerosis. Compared with the model without the adjustment of cg14019050 methylation, the model with such adjustment provided smaller estimates of the mean plasma HDL cholesterol concentration in association with both the rs2246293 C allele and EPA and a smaller difference by rs2246293 genotypes in the EPA-associated HDL cholesterol. However, the differences between 2 nested models were NS (P > 0.05).
CONCLUSION: We obtained little evidence that the gene-by-fatty acid interactions on blood lipids act through DNA methylation.
10aApolipoproteins E10aATP Binding Cassette Transporter 110aCholesterol, HDL10aCohort Studies10aDiet10aDNA Methylation10aEicosapentaenoic Acid10aEpigenesis, Genetic10aFatty Acids10aGene Expression Regulation10aHumans10aLipids10aPolymorphism, Single Nucleotide10aPromoter Regions, Genetic10aTriglycerides1 aMa, Yiyi1 aFollis, Jack, L1 aSmith, Caren, E1 aTanaka, Toshiko1 aManichaikul, Ani, W1 aChu, Audrey, Y1 aSamieri, Cecilia1 aZhou, Xia1 aGuan, Weihua1 aWang, Lu1 aBiggs, Mary, L1 aChen, Yii-der, I1 aHernandez, Dena, G1 aBorecki, Ingrid1 aChasman, Daniel, I1 aRich, Stephen, S1 aFerrucci, Luigi1 aIrvin, Marguerite, Ryan1 aAslibekyan, Stella1 aZhi, Degui1 aTiwari, Hemant, K1 aClaas, Steven, A1 aSha, Jin1 aKabagambe, Edmond, K1 aLai, Chao-Qiang1 aParnell, Laurence, D1 aLee, Yu-Chi1 aAmouyel, Philippe1 aLambert, Jean-Charles1 aPsaty, Bruce, M1 aKing, Irena, B1 aMozaffarian, Dariush1 aMcKnight, Barbara1 aBandinelli, Stefania1 aTsai, Michael, Y1 aRidker, Paul, M1 aDing, Jingzhong1 aMstat, Kurt, Lohmant1 aLiu, Yongmei1 aSotoodehnia, Nona1 aBarberger-Gateau, Pascale1 aSteffen, Lyn, M1 aSiscovick, David, S1 aAbsher, Devin1 aArnett, Donna, K1 aOrdovas, Jose, M1 aLemaitre, Rozenn, N uhttps://chs-nhlbi.org/node/695103238nas a2200433 4500008004100000022001400041245012200055210006900177260001600246520194400262100001802206700002202224700002502246700001902271700001902290700001702309700002102326700002202347700002002369700002002389700002002409700002402429700002202453700002502475700001902500700002302519700002502542700002202567700001602589700002402605700001802629700002302647700002002670700002302690700001602713700002302729700001602752856003602768 2017 eng d a1534-779600aBivariate Genome-Wide Association Study of Depressive Symptoms with Type 2 Diabetes and Quantitative Glycemic Traits.0 aBivariate GenomeWide Association Study of Depressive Symptoms wi c2017 Dec 273 aOBJECTIVE: Shared genetic background may explain phenotypic associations between depression and Type-2-Diabetes (T2D). We aimed to study, on a genome-wide level, if genetic correlation and pleiotropic loci exist between depressive symptoms and T2D or glycemic traits.
METHODS: We estimated SNP-based heritability and analyzed genetic correlation between depressive symptoms and T2D and glycemic traits with the LD Score Regression (LDSC) by combining summary statistics of previously conducted meta-analyses for depressive symptoms by CHARGE consortium (N = 51,258), T2D by Diagram consortium (N = 34,840 patients and 114,981 controls), fasting glucose, fasting insulin, HOMA-β, and HOMA-IR by MAGIC consortium (N = 58,074). Finally, we investigated pleiotropic loci using a bivariate GWAS approach with summary statistics from GWAS meta-analyses and reported loci with genome-wide significant bivariate association p-value (p < 5x10). Biological annotation and function of significant pleiotropic SNPs were assessed in several databases.
RESULTS: The SNP-based heritability ranged from 0.04 to 0.10 in each individual trait. In the LDSC analyses, depressive symptoms showed no significant genetic correlation with T2D or glycemic traits (p > 0.37). Yet, we identified pleiotropic genetic variations for depressive symptoms and T2D (in the IGF2BP2, CDKAL1, CDKN2B-AS, and PLEKHA1 genes), and fasting glucose (in the MADD, CDKN2B-AS, PEX16, and MTNR1B genes).
CONCLUSIONS: We found no significant overall genetic correlations between depressive symptoms, T2D or glycemic traits suggesting major differences in underlying biology of these traits. Yet, several potential pleiotropic loci were identified between depressive symptoms, T2D and fasting glucose suggesting that previously established phenotypic associations may be partly explained by genetic variation in these specific loci.
1 aHaljas, Kadri1 aAmare, Azmeraw, T1 aAlizadeh, Behrooz, Z1 aHsu, Yi-Hsiang1 aMosley, Thomas1 aNewman, Anne1 aMurabito, Joanne1 aTiemeier, Henning1 aTanaka, Toshiko1 aDuijn, Cornelia1 aDing, Jingzhong1 aLlewellyn, David, J1 aBennett, David, A1 aTerracciano, Antonio1 aLauner, Lenore1 aLadwig, Karl-Heinz1 aCornelis, Marylin, C1 aTeumer, Alexander1 aGrabe, Hans1 aKardia, Sharon, L R1 aWare, Erin, B1 aSmith, Jennifer, A1 aSnieder, Harold1 aEriksson, Johan, G1 aGroop, Leif1 aRäikkönen, Katri1 aLahti, Jari uhttps://chs-nhlbi.org/node/756511426nas a2203589 4500008004100000022001400041245015500055210006900210260001600279300001200295490000800307520141100315100002001726700001601746700001601762700002701778700002201805700001901827700002701846700002001873700001801893700001901911700001301930700002101943700001901964700001901983700001502002700001202017700001902029700001802048700002002066700002102086700002502107700001802132700001602150700002002166700001802186700002102204700001502225700001802240700002102258700002002279700002202299700002102321700002302342700001802365700002702383700002802410700002702438700001802465700001902483700001902502700002102521700001902542700001602561700002602577700002002603700002202623700001802645700001602663700001902679700002202698700001802720700001302738700002102751700002602772700002402798700002002822700002502842700002102867700001902888700002202907700001802929700002102947700002002968700002302988700001303011700001903024700001603043700001803059700002403077700001703101700002003118700002303138700002703161700002803188700001503216700002503231700001403256700002203270700002203292700001903314700001703333700001703350700001503367700001603382700001803398700002003416700001903436700002503455700002003480700001703500700002003517700001903537700001803556700002303574700002303597700001903620700002303639700002703662700002803689700002403717700002503741700002603766700001703792700002203809700002303831700002003854700002003874700002303894700002303917700002203940700001803962700002503980700001704005700002004022700002204042700002204064700002204086700002004108700001904128700002104147700002504168700002704193700001904220700002404239700002304263700002004286700002004306700002204326700002104348700001904369700002204388700002004410700002604430700001904456700002404475700002704499700002004526700002404546700002604570700001904596700002004615700002004635700002004655700001704675700002204692700002404714700001704738700002204755700002204777700002204799700002004821700002404841700002204865700003004887700002404917700002604941700002504967700002104992700001505013700002305028700002005051700002405071700002005095700002105115700002805136700002005164700002805184700001905212700002405231700001905255700002205274700002305296700001905319700002205338700001905360700002105379700002205400700002105422700002105443700002005464700001805484700002505502700001905527700002105546700001505567700001505582700002205597700002005619700002405639700002105663700002405684700001805708700002405726700002505750700002605775700002405801700002205825700002105847700001705868700002005885700002305905700002005928700002105948700002305969700002405992700002306016700002306039700002306062700001906085700002406104700002106128700002706149700001906176700002006195700002006215700001806235700002806253700002006281700002406301700001106325700002106336700002306357700002206380700002006402700002106422700002306443700001906466700002006485700001706505700002306522700002106545700002706566700002106593700002506614700001706639700002206656700001906678700002006697700002506717700002906742700002006771700002106791700002606812700002506838700002206863700002006885700001806905700001806923700002406941700001506965700001906980700002206999700001907021700002207040700002207062700002307084700002107107700002407128700002307152700002207175700001907197700001507216700002107231700002007252700002007272700002007292700002407312700002007336700002407356700002207380700002007402700002207422700001907444700002107463700002707484700002007511700001707531700001907548700001707567700002107584700002407605700002307629700001907652700002007671700001907691700002507710710002707735710003807762856003607800 2018 eng d a1537-660500aGenome Analyses of >200,000 Individuals Identify 58 Loci for Chronic Inflammation and Highlight Pathways that Link Inflammation and Complex Disorders.0 aGenome Analyses of 200000 Individuals Identify 58 Loci for Chron c2018 Nov 01 a691-7060 v1033 aC-reactive protein (CRP) is a sensitive biomarker of chronic low-grade inflammation and is associated with multiple complex diseases. The genetic determinants of chronic inflammation remain largely unknown, and the causal role of CRP in several clinical outcomes is debated. We performed two genome-wide association studies (GWASs), on HapMap and 1000 Genomes imputed data, of circulating amounts of CRP by using data from 88 studies comprising 204,402 European individuals. Additionally, we performed in silico functional analyses and Mendelian randomization analyses with several clinical outcomes. The GWAS meta-analyses of CRP revealed 58 distinct genetic loci (p < 5 × 10). After adjustment for body mass index in the regression analysis, the associations at all except three loci remained. The lead variants at the distinct loci explained up to 7.0% of the variance in circulating amounts of CRP. We identified 66 gene sets that were organized in two substantially correlated clusters, one mainly composed of immune pathways and the other characterized by metabolic pathways in the liver. Mendelian randomization analyses revealed a causal protective effect of CRP on schizophrenia and a risk-increasing effect on bipolar disorder. Our findings provide further insights into the biology of inflammation and could lead to interventions for treating inflammation and its clinical consequences.
1 aLigthart, Symen1 aVaez, Ahmad1 aVõsa, Urmo1 aStathopoulou, Maria, G1 ade Vries, Paul, S1 aPrins, Bram, P1 avan der Most, Peter, J1 aTanaka, Toshiko1 aNaderi, Elnaz1 aRose, Lynda, M1 aWu, Ying1 aKarlsson, Robert1 aBarbalic, Maja1 aLin, Honghuang1 aPool, Rene1 aZhu, Gu1 aMace, Aurelien1 aSidore, Carlo1 aTrompet, Stella1 aMangino, Massimo1 aSabater-Lleal, Maria1 aKemp, John, P1 aAbbasi, Ali1 aKacprowski, Tim1 aVerweij, Niek1 aSmith, Albert, V1 aHuang, Tao1 aMarzi, Carola1 aFeitosa, Mary, F1 aLohman, Kurt, K1 aKleber, Marcus, E1 aMilaneschi, Yuri1 aMueller, Christian1 aHuq, Mahmudul1 aVlachopoulou, Efthymia1 aLyytikäinen, Leo-Pekka1 aOldmeadow, Christopher1 aDeelen, Joris1 aPerola, Markus1 aZhao, Jing Hua1 aFeenstra, Bjarke1 aAmini, Marzyeh1 aLahti, Jari1 aSchraut, Katharina, E1 aFornage, Myriam1 aSuktitipat, Bhoom1 aChen, Wei-Min1 aLi, Xiaohui1 aNutile, Teresa1 aMalerba, Giovanni1 aLuan, Jian'an1 aBak, Tom1 aSchork, Nicholas1 aM, Fabiola, del Greco1 aThiering, Elisabeth1 aMahajan, Anubha1 aMarioni, Riccardo, E1 aMihailov, Evelin1 aEriksson, Joel1 aOzel, Ayse, Bilge1 aZhang, Weihua1 aNethander, Maria1 aCheng, Yu-Ching1 aAslibekyan, Stella1 aAng, Wei1 aGandin, Ilaria1 aYengo, Loic1 aPortas, Laura1 aKooperberg, Charles1 aHofer, Edith1 aRajan, Kumar, B1 aSchurmann, Claudia1 aHollander, Wouter, den1 aAhluwalia, Tarunveer, S1 aZhao, Jing1 aDraisma, Harmen, H M1 aFord, Ian1 aTimpson, Nicholas1 aTeumer, Alexander1 aHuang, Hongyan1 aWahl, Simone1 aLiu, Yongmei1 aHuang, Jie1 aUh, Hae-Won1 aGeller, Frank1 aJoshi, Peter, K1 aYanek, Lisa, R1 aTrabetti, Elisabetta1 aLehne, Benjamin1 aVozzi, Diego1 aVerbanck, Marie1 aBiino, Ginevra1 aSaba, Yasaman1 aMeulenbelt, Ingrid1 aO'Connell, Jeff, R1 aLaakso, Markku1 aGiulianini, Franco1 aMagnusson, Patrik, K E1 aBallantyne, Christie, M1 aHottenga, Jouke Jan1 aMontgomery, Grant, W1 aRivadineira, Fernando1 aRueedi, Rico1 aSteri, Maristella1 aHerzig, Karl-Heinz1 aStott, David, J1 aMenni, Cristina1 aFrånberg, Mattias1 aSt Pourcain, Beate1 aFelix, Stephan, B1 aPers, Tune, H1 aBakker, Stephan, J L1 aKraft, Peter1 aPeters, Annette1 aVaidya, Dhananjay1 aDelgado, Graciela1 aSmit, Johannes, H1 aGroßmann, Vera1 aSinisalo, Juha1 aSeppälä, Ilkka1 aWilliams, Stephen, R1 aHolliday, Elizabeth, G1 aMoed, Matthijs1 aLangenberg, Claudia1 aRäikkönen, Katri1 aDing, Jingzhong1 aCampbell, Harry1 aSale, Michèle, M1 aChen, Yii-der, I1 aJames, Alan, L1 aRuggiero, Daniela1 aSoranzo, Nicole1 aHartman, Catharina, A1 aSmith, Erin, N1 aBerenson, Gerald, S1 aFuchsberger, Christian1 aHernandez, Dena1 aTiesler, Carla, M T1 aGiedraitis, Vilmantas1 aLiewald, David1 aFischer, Krista1 aMellström, Dan1 aLarsson, Anders1 aWang, Yunmei1 aScott, William, R1 aLorentzon, Matthias1 aBeilby, John1 aRyan, Kathleen, A1 aPennell, Craig, E1 aVuckovic, Dragana1 aBalkau, Beverly1 aConcas, Maria, Pina1 aSchmidt, Reinhold1 ade Leon, Carlos, F Mendes1 aBottinger, Erwin, P1 aKloppenburg, Margreet1 aPaternoster, Lavinia1 aBoehnke, Michael1 aMusk, A, W1 aWillemsen, Gonneke1 aEvans, David, M1 aMadden, Pamela, A F1 aKähönen, Mika1 aKutalik, Zoltán1 aZoledziewska, Magdalena1 aKarhunen, Ville1 aKritchevsky, Stephen, B1 aSattar, Naveed1 aLachance, Genevieve1 aClarke, Robert1 aHarris, Tamara, B1 aRaitakari, Olli, T1 aAttia, John, R1 avan Heemst, Diana1 aKajantie, Eero1 aSorice, Rossella1 aGambaro, Giovanni1 aScott, Robert, A1 aHicks, Andrew, A1 aFerrucci, Luigi1 aStandl, Marie1 aLindgren, Cecilia, M1 aStarr, John, M1 aKarlsson, Magnus1 aLind, Lars1 aLi, Jun, Z1 aChambers, John, C1 aMori, Trevor, A1 ade Geus, Eco, J C N1 aHeath, Andrew, C1 aMartin, Nicholas, G1 aAuvinen, Juha1 aBuckley, Brendan, M1 ade Craen, Anton, J M1 aWaldenberger, Melanie1 aStrauch, Konstantin1 aMeitinger, Thomas1 aScott, Rodney, J1 aMcEvoy, Mark1 aBeekman, Marian1 aBombieri, Cristina1 aRidker, Paul, M1 aMohlke, Karen, L1 aPedersen, Nancy, L1 aMorrison, Alanna, C1 aBoomsma, Dorret, I1 aWhitfield, John, B1 aStrachan, David, P1 aHofman, Albert1 aVollenweider, Peter1 aCucca, Francesco1 aJarvelin, Marjo-Riitta1 aJukema, Wouter1 aSpector, Tim, D1 aHamsten, Anders1 aZeller, Tanja1 aUitterlinden, André, G1 aNauck, Matthias1 aGudnason, Vilmundur1 aQi, Lu1 aGrallert, Harald1 aBorecki, Ingrid, B1 aRotter, Jerome, I1 aMärz, Winfried1 aWild, Philipp, S1 aLokki, Marja-Liisa1 aBoyle, Michael1 aSalomaa, Veikko1 aMelbye, Mads1 aEriksson, Johan, G1 aWilson, James, F1 aPenninx, Brenda, W J H1 aBecker, Diane, M1 aWorrall, Bradford, B1 aGibson, Greg1 aKrauss, Ronald, M1 aCiullo, Marina1 aZaza, Gianluigi1 aWareham, Nicholas, J1 aOldehinkel, Albertine, J1 aPalmer, Lyle, J1 aMurray, Sarah, S1 aPramstaller, Peter, P1 aBandinelli, Stefania1 aHeinrich, Joachim1 aIngelsson, Erik1 aDeary, Ian, J1 aMägi, Reedik1 aVandenput, Liesbeth1 aHarst, Pim1 aDesch, Karl, C1 aKooner, Jaspal, S1 aOhlsson, Claes1 aHayward, Caroline1 aLehtimäki, Terho1 aShuldiner, Alan, R1 aArnett, Donna, K1 aBeilin, Lawrence, J1 aRobino, Antonietta1 aFroguel, Philippe1 aPirastu, Mario1 aJess, Tine1 aKoenig, Wolfgang1 aLoos, Ruth, J F1 aEvans, Denis, A1 aSchmidt, Helena1 aSmith, George Davey1 aSlagboom, Eline1 aEiriksdottir, Gudny1 aMorris, Andrew, P1 aPsaty, Bruce, M1 aTracy, Russell, P1 aNolte, Ilja, M1 aBoerwinkle, Eric1 aVisvikis-Siest, Sophie1 aReiner, Alex, P1 aGross, Myron1 aBis, Joshua, C1 aFranke, Lude1 aFranco, Oscar, H1 aBenjamin, Emelia, J1 aChasman, Daniel, I1 aDupuis, Josée1 aSnieder, Harold1 aDehghan, Abbas1 aAlizadeh, Behrooz, Z1 aLifeLines Cohort Study1 aCHARGE Inflammation Working Group uhttps://chs-nhlbi.org/node/792011027nas a2203421 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2018 eng d a1932-620300aNovel genetic associations for blood pressure identified via gene-alcohol interaction in up to 570K individuals across multiple ancestries.0 aNovel genetic associations for blood pressure identified via gen c2018 ae01981660 v133 aHeavy alcohol consumption is an established risk factor for hypertension; the mechanism by which alcohol consumption impact blood pressure (BP) regulation remains unknown. We hypothesized that a genome-wide association study accounting for gene-alcohol consumption interaction for BP might identify additional BP loci and contribute to the understanding of alcohol-related BP regulation. We conducted a large two-stage investigation incorporating joint testing of main genetic effects and single nucleotide variant (SNV)-alcohol consumption interactions. In Stage 1, genome-wide discovery meta-analyses in ≈131K individuals across several ancestry groups yielded 3,514 SNVs (245 loci) with suggestive evidence of association (P < 1.0 x 10-5). In Stage 2, these SNVs were tested for independent external replication in ≈440K individuals across multiple ancestries. We identified and replicated (at Bonferroni correction threshold) five novel BP loci (380 SNVs in 21 genes) and 49 previously reported BP loci (2,159 SNVs in 109 genes) in European ancestry, and in multi-ancestry meta-analyses (P < 5.0 x 10-8). For African ancestry samples, we detected 18 potentially novel BP loci (P < 5.0 x 10-8) in Stage 1 that warrant further replication. Additionally, correlated meta-analysis identified eight novel BP loci (11 genes). Several genes in these loci (e.g., PINX1, GATA4, BLK, FTO and GABBR2) have been previously reported to be associated with alcohol consumption. These findings provide insights into the role of alcohol consumption in the genetic architecture of hypertension.
1 aFeitosa, Mary, F1 aKraja, Aldi, T1 aChasman, Daniel, I1 aSung, Yun, J1 aWinkler, Thomas, W1 aNtalla, Ioanna1 aGuo, Xiuqing1 aFranceschini, Nora1 aCheng, Ching-Yu1 aSim, Xueling1 aVojinovic, Dina1 aMarten, Jonathan1 aMusani, Solomon, K1 aLi, Changwei1 aBentley, Amy, R1 aBrown, Michael, R1 aSchwander, Karen1 aRichard, Melissa, A1 aNoordam, Raymond1 aAschard, Hugues1 aBartz, Traci, M1 aBielak, Lawrence, F1 aDorajoo, Rajkumar1 aFisher, Virginia1 aHartwig, Fernando, P1 aHorimoto, Andrea, R V R1 aLohman, Kurt, K1 aManning, Alisa, K1 aRankinen, Tuomo1 aSmith, Albert, V1 aTajuddin, Salman, M1 aWojczynski, Mary, K1 aAlver, Maris1 aBoissel, Mathilde1 aCai, Qiuyin1 aCampbell, Archie1 aChai, Jin, Fang1 aChen, Xu1 aDivers, Jasmin1 aGao, Chuan1 aGoel, Anuj1 aHagemeijer, Yanick1 aHarris, Sarah, E1 aHe, Meian1 aHsu, Fang-Chi1 aJackson, Anne, U1 aKähönen, Mika1 aKasturiratne, Anuradhani1 aKomulainen, Pirjo1 aKuhnel, Brigitte1 aLaguzzi, Federica1 aLuan, Jian'an1 aMatoba, Nana1 aNolte, Ilja, M1 aPadmanabhan, Sandosh1 aRiaz, Muhammad1 aRueedi, Rico1 aRobino, Antonietta1 aSaid, Abdullah1 aScott, Robert, A1 aSofer, Tamar1 aStančáková, Alena1 aTakeuchi, Fumihiko1 aTayo, Bamidele, O1 avan der Most, Peter, J1 aVarga, Tibor, V1 aVitart, Veronique1 aWang, Yajuan1 aWare, Erin, B1 aWarren, Helen, R1 aWeiss, Stefan1 aWen, Wanqing1 aYanek, Lisa, R1 aZhang, Weihua1 aZhao, Jing Hua1 aAfaq, Saima1 aAmin, Najaf1 aAmini, Marzyeh1 aArking, Dan, E1 aAung, Tin1 aBoerwinkle, Eric1 aBorecki, Ingrid1 aBroeckel, Ulrich1 aBrown, Morris1 aBrumat, Marco1 aBurke, Gregory, L1 aCanouil, Mickaël1 aChakravarti, Aravinda1 aCharumathi, Sabanayagam1 aChen, Yii-Der, Ida1 aConnell, John, M1 aCorrea, Adolfo1 aFuentes, Lisa, de Las1 ade Mutsert, Renée1 ade Silva, Janaka1 aDeng, Xuan1 aDing, Jingzhong1 aDuan, Qing1 aEaton, Charles, B1 aEhret, Georg1 aEppinga, Ruben, N1 aEvangelou, Evangelos1 aFaul, Jessica, D1 aFelix, Stephan, B1 aForouhi, Nita, G1 aForrester, Terrence1 aFranco, Oscar, H1 aFriedlander, Yechiel1 aGandin, Ilaria1 aGao, He1 aGhanbari, Mohsen1 aGigante, Bruna1 aGu, Charles1 aGu, Dongfeng1 aHagenaars, Saskia, P1 aHallmans, Göran1 aHarris, Tamara, B1 aHe, Jiang1 aHeikkinen, Sami1 aHeng, Chew-Kiat1 aHirata, Makoto1 aHoward, Barbara, V1 aIkram, Arfan, M1 aJohn, Ulrich1 aKatsuya, Tomohiro1 aKhor, Chiea, Chuen1 aKilpeläinen, Tuomas, O1 aKoh, Woon-Puay1 aKrieger, Jose, E1 aKritchevsky, Stephen, B1 aKubo, Michiaki1 aKuusisto, Johanna1 aLakka, Timo, A1 aLangefeld, Carl, D1 aLangenberg, Claudia1 aLauner, Lenore, J1 aLehne, Benjamin1 aLewis, Cora, E1 aLi, Yize1 aLin, Shiow1 aLiu, Jianjun1 aLiu, Jingmin1 aLoh, Marie1 aLouie, Tin1 aMägi, Reedik1 aMcKenzie, Colin, A1 aMeitinger, Thomas1 aMetspalu, Andres1 aMilaneschi, Yuri1 aMilani, Lili1 aMohlke, Karen, L1 aMomozawa, Yukihide1 aNalls, Mike, A1 aNelson, Christopher, P1 aSotoodehnia, Nona1 aNorris, Jill, M1 aO'Connell, Jeff, R1 aPalmer, Nicholette, D1 aPerls, Thomas1 aPedersen, Nancy, L1 aPeters, Annette1 aPeyser, Patricia, A1 aPoulter, Neil1 aRaffel, Leslie, J1 aRaitakari, Olli, T1 aRoll, Kathryn1 aRose, Lynda, M1 aRosendaal, Frits, R1 aRotter, Jerome, I1 aSchmidt, Carsten, O1 aSchreiner, Pamela, J1 aSchupf, Nicole1 aScott, William, R1 aSever, Peter, S1 aShi, Yuan1 aSidney, Stephen1 aSims, Mario1 aSitlani, Colleen, M1 aSmith, Jennifer, A1 aSnieder, Harold1 aStarr, John, M1 aStrauch, Konstantin1 aStringham, Heather, M1 aTan, Nicholas, Y Q1 aTang, Hua1 aTaylor, Kent, D1 aTeo, Yik, Ying1 aTham, Yih, Chung1 aTurner, Stephen, T1 aUitterlinden, André, G1 aVollenweider, Peter1 aWaldenberger, Melanie1 aWang, Lihua1 aWang, Ya, Xing1 aBin Wei, Wen1 aWilliams, Christine1 aYao, Jie1 aYu, Caizheng1 aYuan, Jian-Min1 aZhao, Wei1 aZonderman, Alan, B1 aBecker, Diane, M1 aBoehnke, Michael1 aBowden, Donald, W1 aChambers, John, C1 aDeary, Ian, J1 aEsko, Tõnu1 aFarrall, Martin1 aFranks, Paul, W1 aFreedman, Barry, I1 aFroguel, Philippe1 aGasparini, Paolo1 aGieger, Christian1 aJonas, Jost, Bruno1 aKamatani, Yoichiro1 aKato, Norihiro1 aKooner, Jaspal, S1 aKutalik, Zoltán1 aLaakso, Markku1 aLaurie, Cathy, C1 aLeander, Karin1 aLehtimäki, Terho1 aStudy, Lifelines, Cohort1 aMagnusson, Patrik, K E1 aOldehinkel, Albertine, J1 aPenninx, Brenda, W J H1 aPolasek, Ozren1 aPorteous, David, J1 aRauramaa, Rainer1 aSamani, Nilesh, J1 aScott, James1 aShu, Xiao-Ou1 aHarst, Pim1 aWagenknecht, Lynne, E1 aWareham, Nicholas, J1 aWatkins, Hugh1 aWeir, David, R1 aWickremasinghe, Ananda, R1 aWu, Tangchun1 aZheng, Wei1 aBouchard, Claude1 aChristensen, Kaare1 aEvans, Michele, K1 aGudnason, Vilmundur1 aHorta, Bernardo, L1 aKardia, Sharon, L R1 aLiu, Yongmei1 aPereira, Alexandre, C1 aPsaty, Bruce, M1 aRidker, Paul, M1 avan Dam, Rob, M1 aGauderman, James1 aZhu, Xiaofeng1 aMook-Kanamori, Dennis, O1 aFornage, Myriam1 aRotimi, Charles, N1 aCupples, Adrienne, L1 aKelly, Tanika, N1 aFox, Ervin, R1 aHayward, Caroline1 aDuijn, Cornelia, M1 aTai, Shyong, E1 aWong, Tien, Yin1 aKooperberg, Charles1 aPalmas, Walter1 aRice, Kenneth1 aMorrison, Alanna, C1 aElliott, Paul1 aCaulfield, Mark, J1 aMunroe, Patricia, B1 aRao, Dabeeru, C1 aProvince, Michael, A1 aLevy, Daniel1 aInterAct Consortium uhttps://chs-nhlbi.org/node/779210550nas a2203325 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2019 eng d a1476-625600aMulti-Ancestry Genome-Wide Association Study of Lipid Levels Incorporating Gene-Alcohol Interactions.0 aMultiAncestry GenomeWide Association Study of Lipid Levels Incor c2019 Jan 293 aAn individual's lipid profile is influenced by genetic variants and alcohol consumption, but the contribution of interactions between these exposures has not been studied. We therefore incorporated gene-alcohol interactions into a multi-ancestry genome-wide association study of levels of high-density lipoprotein cholesterol, low-density lipoprotein cholesterol, and triglycerides. We included 45 studies in Stage 1 (genome-wide discovery) and 66 studies in Stage 2 (focused follow-up), for a total of 394,584 individuals from five ancestry groups. Genetic main and interaction effects were jointly assessed by a 2 degrees of freedom (DF) test, and a 1 DF test was used to assess the interaction effects alone. Variants at 495 loci were at least suggestively associated (P < 1 × 10-6) with lipid levels in Stage 1 and were evaluated in Stage 2, followed by combined analyses of Stage 1 and Stage 2. In the combined analysis of Stage 1 and Stage 2, 147 independent loci were associated with lipid levels at P < 5 × 10-8 using 2 DF tests, of which 18 were novel. No genome-wide significant associations were found testing the interaction effect alone. The novel loci included several genes (PCSK5, VEGFB, and A1CF) with a putative role in lipid metabolism based on existing evidence from cellular and experimental models.
1 ade Vries, Paul, S1 aBrown, Michael, R1 aBentley, Amy, R1 aSung, Yun, J1 aWinkler, Thomas, W1 aNtalla, Ioanna1 aSchwander, Karen1 aKraja, Aldi, T1 aGuo, Xiuqing1 aFranceschini, Nora1 aCheng, Ching-Yu1 aSim, Xueling1 aVojinovic, Dina1 aHuffman, Jennifer, E1 aMusani, Solomon, K1 aLi, Changwei1 aFeitosa, Mary, F1 aRichard, Melissa, A1 aNoordam, Raymond1 aAschard, Hugues1 aBartz, Traci, M1 aBielak, Lawrence, F1 aDeng, Xuan1 aDorajoo, Rajkumar1 aLohman, Kurt, K1 aManning, Alisa, K1 aRankinen, Tuomo1 aSmith, Albert, V1 aTajuddin, Salman, M1 aEvangelou, Evangelos1 aGraff, Mariaelisa1 aAlver, Maris1 aBoissel, Mathilde1 aChai, Jin, Fang1 aChen, Xu1 aDivers, Jasmin1 aGandin, Ilaria1 aGao, Chuan1 aGoel, Anuj1 aHagemeijer, Yanick1 aHarris, Sarah, E1 aHartwig, Fernando, P1 aHe, Meian1 aHorimoto, Andrea, R V R1 aHsu, Fang-Chi1 aJackson, Anne, U1 aKasturiratne, Anuradhani1 aKomulainen, Pirjo1 aKuhnel, Brigitte1 aLaguzzi, Federica1 aLee, Joseph, H1 aLuan, Jian'an1 aLyytikäinen, Leo-Pekka1 aMatoba, Nana1 aNolte, Ilja, M1 aPietzner, Maik1 aRiaz, Muhammad1 aSaid, Abdullah1 aScott, Robert, A1 aSofer, Tamar1 aStančáková, Alena1 aTakeuchi, Fumihiko1 aTayo, Bamidele, O1 avan der Most, Peter, J1 aVarga, Tibor, V1 aWang, Yajuan1 aWare, Erin, B1 aWen, Wanqing1 aYanek, Lisa, R1 aZhang, Weihua1 aZhao, Jing Hua1 aAfaq, Saima1 aAmin, Najaf1 aAmini, Marzyeh1 aArking, Dan, E1 aAung, Tin1 aBallantyne, Christie1 aBoerwinkle, Eric1 aBroeckel, Ulrich1 aCampbell, Archie1 aCanouil, Mickaël1 aCharumathi, Sabanayagam1 aChen, Yii-Der Ida1 aConnell, John, M1 ade Faire, Ulf1 aFuentes, Lisa, de Las1 ade Mutsert, Renée1 ade Silva, Janaka1 aDing, Jingzhong1 aDominiczak, Anna, F1 aDuan, Qing1 aEaton, Charles, B1 aEppinga, Ruben, N1 aFaul, Jessica, D1 aFisher, Virginia1 aForrester, Terrence1 aFranco, Oscar, H1 aFriedlander, Yechiel1 aGhanbari, Mohsen1 aGiulianini, Franco1 aGrabe, Hans, J1 aGrove, Megan, L1 aGu, Charles1 aHarris, Tamara, B1 aHeikkinen, Sami1 aHeng, Chew-Kiat1 aHirata, Makoto1 aHixson, James, E1 aHoward, Barbara, V1 aIkram, Arfan, M1 aJacobs, David, R1 aJohnson, Craig1 aJonas, Jost, Bruno1 aKammerer, Candace, M1 aKatsuya, Tomohiro1 aKhor, Chiea, Chuen1 aKilpeläinen, Tuomas, O1 aKoh, Woon-Puay1 aKoistinen, Heikki, A1 aKolcic, Ivana1 aKooperberg, Charles1 aKrieger, Jose, E1 aKritchevsky, Steve, B1 aKubo, Michiaki1 aKuusisto, Johanna1 aLakka, Timo, A1 aLangefeld, Carl, D1 aLangenberg, Claudia1 aLauner, Lenore, J1 aLehne, Benjamin1 aLemaitre, Rozenn, N1 aLi, Yize1 aLiang, Jingjing1 aLiu, Jianjun1 aLiu, Kiang1 aLoh, Marie1 aLouie, Tin1 aMägi, Reedik1 aManichaikul, Ani, W1 aMcKenzie, Colin, A1 aMeitinger, Thomas1 aMetspalu, Andres1 aMilaneschi, Yuri1 aMilani, Lili1 aMohlke, Karen, L1 aMosley, Thomas, H1 aMukamal, Kenneth, J1 aNalls, Mike, A1 aNauck, Matthias1 aNelson, Christopher, P1 aSotoodehnia, Nona1 aO'Connell, Jeff, R1 aPalmer, Nicholette, D1 aPazoki, Raha1 aPedersen, Nancy, L1 aPeters, Annette1 aPeyser, Patricia, A1 aPolasek, Ozren1 aPoulter, Neil1 aRaffel, Leslie, J1 aRaitakari, Olli, T1 aReiner, Alex, P1 aRice, Treva, K1 aRich, Stephen, S1 aRobino, Antonietta1 aRobinson, Jennifer, G1 aRose, Lynda, M1 aRudan, Igor1 aSchmidt, Carsten, O1 aSchreiner, Pamela, J1 aScott, William, R1 aSever, Peter1 aShi, Yuan1 aSidney, Stephen1 aSims, Mario1 aSmith, Blair, H1 aSmith, Jennifer, A1 aSnieder, Harold1 aStarr, John, M1 aStrauch, Konstantin1 aTan, Nicholas1 aTaylor, Kent, D1 aTeo, Yik, Ying1 aTham, Yih, Chung1 aUitterlinden, André, G1 avan Heemst, Diana1 aVuckovic, Dragana1 aWaldenberger, Melanie1 aWang, Lihua1 aWang, Yujie1 aWang, Zhe1 aBin Wei, Wen1 aWilliams, Christine1 aWilson, Gregory1 aWojczynski, Mary, K1 aYao, Jie1 aYu, Bing1 aYu, Caizheng1 aYuan, Jian-Min1 aZhao, Wei1 aZonderman, Alan, B1 aBecker, Diane, M1 aBoehnke, Michael1 aBowden, Donald, W1 aChambers, John, C1 aDeary, Ian, J1 aEsko, Tõnu1 aFarrall, Martin1 aFranks, Paul, W1 aFreedman, Barry, I1 aFroguel, Philippe1 aGasparini, Paolo1 aGieger, Christian1 aHorta, Bernardo, L1 aKamatani, Yoichiro1 aKato, Norihiro1 aKooner, Jaspal, S1 aLaakso, Markku1 aLeander, Karin1 aLehtimäki, Terho1 aMagnusson, Patrik, K E1 aPenninx, Brenda1 aPereira, Alexandre, C1 aRauramaa, Rainer1 aSamani, Nilesh, J1 aScott, James1 aShu, Xiao-Ou1 aHarst, Pim1 aWagenknecht, Lynne, E1 aWang, Ya, Xing1 aWareham, Nicholas, J1 aWatkins, Hugh1 aWeir, David, R1 aWickremasinghe, Ananda, R1 aZheng, Wei1 aElliott, Paul1 aNorth, Kari, E1 aBouchard, Claude1 aEvans, Michele, K1 aGudnason, Vilmundur1 aLiu, Ching-Ti1 aLiu, Yongmei1 aPsaty, Bruce, M1 aRidker, Paul, M1 avan Dam, Rob, M1 aKardia, Sharon, L R1 aZhu, Xiaofeng1 aRotimi, Charles, N1 aMook-Kanamori, Dennis, O1 aFornage, Myriam1 aKelly, Tanika, N1 aFox, Ervin, R1 aHayward, Caroline1 aDuijn, Cornelia, M1 aTai, Shyong, E1 aWong, Tien, Yin1 aLiu, Jingmin1 aRotter, Jerome, I1 aGauderman, James1 aProvince, Michael, A1 aMunroe, Patricia, B1 aRice, Kenneth1 aChasman, Daniel, I1 aCupples, Adrienne, L1 aRao, Dabeeru, C1 aMorrison, Alanna, C1 aInterAct Consortium1 aLifelines Cohort, Groningen, The Netherlands (Lifelines Cohort Study) uhttps://chs-nhlbi.org/node/797011178nas a2203793 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2019 eng d a1546-171800aMulti-ancestry genome-wide gene-smoking interaction study of 387,272 individuals identifies new loci associated with serum lipids.0 aMultiancestry genomewide genesmoking interaction study of 387272 c2019 Apr a636-6480 v513 aThe concentrations of high- and low-density-lipoprotein cholesterol and triglycerides are influenced by smoking, but it is unknown whether genetic associations with lipids may be modified by smoking. We conducted a multi-ancestry genome-wide gene-smoking interaction study in 133,805 individuals with follow-up in an additional 253,467 individuals. Combined meta-analyses identified 13 new loci associated with lipids, some of which were detected only because association differed by smoking status. Additionally, we demonstrate the importance of including diverse populations, particularly in studies of interactions with lifestyle factors, where genomic and lifestyle differences by ancestry may contribute to novel findings.
1 aBentley, Amy, R1 aSung, Yun, J1 aBrown, Michael, R1 aWinkler, Thomas, W1 aKraja, Aldi, T1 aNtalla, Ioanna1 aSchwander, Karen1 aChasman, Daniel, I1 aLim, Elise1 aDeng, Xuan1 aGuo, Xiuqing1 aLiu, Jingmin1 aLu, Yingchang1 aCheng, Ching-Yu1 aSim, Xueling1 aVojinovic, Dina1 aHuffman, Jennifer, E1 aMusani, Solomon, K1 aLi, Changwei1 aFeitosa, Mary, F1 aRichard, Melissa, A1 aNoordam, Raymond1 aBaker, Jenna1 aChen, Guanjie1 aAschard, Hugues1 aBartz, Traci, M1 aDing, Jingzhong1 aDorajoo, Rajkumar1 aManning, Alisa, K1 aRankinen, Tuomo1 aSmith, Albert, V1 aTajuddin, Salman, M1 aZhao, Wei1 aGraff, Mariaelisa1 aAlver, Maris1 aBoissel, Mathilde1 aChai, Jin, Fang1 aChen, Xu1 aDivers, Jasmin1 aEvangelou, Evangelos1 aGao, Chuan1 aGoel, Anuj1 aHagemeijer, Yanick1 aHarris, Sarah, E1 aHartwig, Fernando, P1 aHe, Meian1 aHorimoto, Andrea, R V R1 aHsu, Fang-Chi1 aHung, Yi-Jen1 aJackson, Anne, U1 aKasturiratne, Anuradhani1 aKomulainen, Pirjo1 aKuhnel, Brigitte1 aLeander, Karin1 aLin, Keng-Hung1 aLuan, Jian'an1 aLyytikäinen, Leo-Pekka1 aMatoba, Nana1 aNolte, Ilja, M1 aPietzner, Maik1 aPrins, Bram1 aRiaz, Muhammad1 aRobino, Antonietta1 aSaid, Abdullah1 aSchupf, Nicole1 aScott, Robert, A1 aSofer, Tamar1 aStančáková, Alena1 aTakeuchi, Fumihiko1 aTayo, Bamidele, O1 avan der Most, Peter, J1 aVarga, Tibor, V1 aWang, Tzung-Dau1 aWang, Yajuan1 aWare, Erin, B1 aWen, Wanqing1 aXiang, Yong-Bing1 aYanek, Lisa, R1 aZhang, Weihua1 aZhao, Jing Hua1 aAdeyemo, Adebowale1 aAfaq, Saima1 aAmin, Najaf1 aAmini, Marzyeh1 aArking, Dan, E1 aArzumanyan, Zorayr1 aAung, Tin1 aBallantyne, Christie1 aBarr, Graham1 aBielak, Lawrence, F1 aBoerwinkle, Eric1 aBottinger, Erwin, P1 aBroeckel, Ulrich1 aBrown, Morris1 aCade, Brian, E1 aCampbell, Archie1 aCanouil, Mickaël1 aCharumathi, Sabanayagam1 aChen, Yii-Der Ida1 aChristensen, Kaare1 aConcas, Maria, Pina1 aConnell, John, M1 aFuentes, Lisa, de Las1 ade Silva, Janaka1 ade Vries, Paul, S1 aDoumatey, Ayo1 aDuan, Qing1 aEaton, Charles, B1 aEppinga, Ruben, N1 aFaul, Jessica, D1 aFloyd, James, S1 aForouhi, Nita, G1 aForrester, Terrence1 aFriedlander, Yechiel1 aGandin, Ilaria1 aGao, He1 aGhanbari, Mohsen1 aGharib, Sina, A1 aGigante, Bruna1 aGiulianini, Franco1 aGrabe, Hans, J1 aGu, Charles1 aHarris, Tamara, B1 aHeikkinen, Sami1 aHeng, Chew-Kiat1 aHirata, Makoto1 aHixson, James, E1 aIkram, Arfan, M1 aJia, Yucheng1 aJoehanes, Roby1 aJohnson, Craig1 aJonas, Jost, Bruno1 aJustice, Anne, E1 aKatsuya, Tomohiro1 aKhor, Chiea, Chuen1 aKilpeläinen, Tuomas, O1 aKoh, Woon-Puay1 aKolcic, Ivana1 aKooperberg, Charles1 aKrieger, Jose, E1 aKritchevsky, Stephen, B1 aKubo, Michiaki1 aKuusisto, Johanna1 aLakka, Timo, A1 aLangefeld, Carl, D1 aLangenberg, Claudia1 aLauner, Lenore, J1 aLehne, Benjamin1 aLewis, Cora, E1 aLi, Yize1 aLiang, Jingjing1 aLin, Shiow1 aLiu, Ching-Ti1 aLiu, Jianjun1 aLiu, Kiang1 aLoh, Marie1 aLohman, Kurt, K1 aLouie, Tin1 aLuzzi, Anna1 aMägi, Reedik1 aMahajan, Anubha1 aManichaikul, Ani, W1 aMcKenzie, Colin, A1 aMeitinger, Thomas1 aMetspalu, Andres1 aMilaneschi, Yuri1 aMilani, Lili1 aMohlke, Karen, L1 aMomozawa, Yukihide1 aMorris, Andrew, P1 aMurray, Alison, D1 aNalls, Mike, A1 aNauck, Matthias1 aNelson, Christopher, P1 aNorth, Kari, E1 aO'Connell, Jeffrey, R1 aPalmer, Nicholette, D1 aPapanicolau, George, J1 aPedersen, Nancy, L1 aPeters, Annette1 aPeyser, Patricia, A1 aPolasek, Ozren1 aPoulter, Neil1 aRaitakari, Olli, T1 aReiner, Alex, P1 aRenstrom, Frida1 aRice, Treva, K1 aRich, Stephen, S1 aRobinson, Jennifer, G1 aRose, Lynda, M1 aRosendaal, Frits, R1 aRudan, Igor1 aSchmidt, Carsten, O1 aSchreiner, Pamela, J1 aScott, William, R1 aSever, Peter1 aShi, Yuan1 aSidney, Stephen1 aSims, Mario1 aSmith, Jennifer, A1 aSnieder, Harold1 aStarr, John, M1 aStrauch, Konstantin1 aStringham, Heather, M1 aTan, Nicholas, Y Q1 aTang, Hua1 aTaylor, Kent, D1 aTeo, Yik, Ying1 aTham, Yih, Chung1 aTiemeier, Henning1 aTurner, Stephen, T1 aUitterlinden, André, G1 avan Heemst, Diana1 aWaldenberger, Melanie1 aWang, Heming1 aWang, Lan1 aWang, Lihua1 aBin Wei, Wen1 aWilliams, Christine, A1 aWilson, Gregory1 aWojczynski, Mary, K1 aYao, Jie1 aYoung, Kristin1 aYu, Caizheng1 aYuan, Jian-Min1 aZhou, Jie1 aZonderman, Alan, B1 aBecker, Diane, M1 aBoehnke, Michael1 aBowden, Donald, W1 aChambers, John, C1 aCooper, Richard, S1 ade Faire, Ulf1 aDeary, Ian, J1 aElliott, Paul1 aEsko, Tõnu1 aFarrall, Martin1 aFranks, Paul, W1 aFreedman, Barry, I1 aFroguel, Philippe1 aGasparini, Paolo1 aGieger, Christian1 aHorta, Bernardo, L1 aJuang, Jyh-Ming, Jimmy1 aKamatani, Yoichiro1 aKammerer, Candace, M1 aKato, Norihiro1 aKooner, Jaspal, S1 aLaakso, Markku1 aLaurie, Cathy, C1 aLee, I-Te1 aLehtimäki, Terho1 aMagnusson, Patrik, K E1 aOldehinkel, Albertine, J1 aPenninx, Brenda, W J H1 aPereira, Alexandre, C1 aRauramaa, Rainer1 aRedline, Susan1 aSamani, Nilesh, J1 aScott, James1 aShu, Xiao-Ou1 aHarst, Pim1 aWagenknecht, Lynne, E1 aWang, Jun-Sing1 aWang, Ya, Xing1 aWareham, Nicholas, J1 aWatkins, Hugh1 aWeir, David, R1 aWickremasinghe, Ananda, R1 aWu, Tangchun1 aZeggini, Eleftheria1 aZheng, Wei1 aBouchard, Claude1 aEvans, Michele, K1 aGudnason, Vilmundur1 aKardia, Sharon, L R1 aLiu, Yongmei1 aPsaty, Bruce, M1 aRidker, Paul, M1 avan Dam, Rob, M1 aMook-Kanamori, Dennis, O1 aFornage, Myriam1 aProvince, Michael, A1 aKelly, Tanika, N1 aFox, Ervin, R1 aHayward, Caroline1 aDuijn, Cornelia, M1 aTai, Shyong, E1 aWong, Tien, Yin1 aLoos, Ruth, J F1 aFranceschini, Nora1 aRotter, Jerome, I1 aZhu, Xiaofeng1 aBierut, Laura, J1 aGauderman, James1 aRice, Kenneth1 aMunroe, Patricia, B1 aMorrison, Alanna, C1 aRao, Dabeeru, C1 aRotimi, Charles, N1 aCupples, Adrienne, L1 aCOGENT-Kidney Consortium1 aEPIC-InterAct Consortium1 aUnderstanding Society Scientific Group1 aLifelines Cohort uhttps://chs-nhlbi.org/node/800510097nas a2203265 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2019 eng d a2041-172300aMulti-ancestry study of blood lipid levels identifies four loci interacting with physical activity.0 aMultiancestry study of blood lipid levels identifies four loci i c2019 01 22 a3760 v103 aMany genetic loci affect circulating lipid levels, but it remains unknown whether lifestyle factors, such as physical activity, modify these genetic effects. To identify lipid loci interacting with physical activity, we performed genome-wide analyses of circulating HDL cholesterol, LDL cholesterol, and triglyceride levels in up to 120,979 individuals of European, African, Asian, Hispanic, and Brazilian ancestry, with follow-up of suggestive associations in an additional 131,012 individuals. We find four loci, in/near CLASP1, LHX1, SNTA1, and CNTNAP2, that are associated with circulating lipid levels through interaction with physical activity; higher levels of physical activity enhance the HDL cholesterol-increasing effects of the CLASP1, LHX1, and SNTA1 loci and attenuate the LDL cholesterol-increasing effect of the CNTNAP2 locus. The CLASP1, LHX1, and SNTA1 regions harbor genes linked to muscle function and lipid metabolism. Our results elucidate the role of physical activity interactions in the genetic contribution to blood lipid levels.
10aAdolescent10aAdult10aAfrican Continental Ancestry Group10aAged10aAged, 80 and over10aAsian Continental Ancestry Group10aBrazil10aCalcium-Binding Proteins10aCholesterol10aCholesterol, HDL10aCholesterol, LDL10aEuropean Continental Ancestry Group10aExercise10aFemale10aGenetic Loci10aGenome-Wide Association Study10aGenotype10aHispanic Americans10aHumans10aLIM-Homeodomain Proteins10aLipid Metabolism10aLipids10aMale10aMembrane Proteins10aMicrotubule-Associated Proteins10aMiddle Aged10aMuscle Proteins10aNerve Tissue Proteins10aTranscription Factors10aTriglycerides10aYoung Adult1 aKilpeläinen, Tuomas, O1 aBentley, Amy, R1 aNoordam, Raymond1 aSung, Yun, Ju1 aSchwander, Karen1 aWinkler, Thomas, W1 aJakupović, Hermina1 aChasman, Daniel, I1 aManning, Alisa1 aNtalla, Ioanna1 aAschard, Hugues1 aBrown, Michael, R1 aFuentes, Lisa, de Las1 aFranceschini, Nora1 aGuo, Xiuqing1 aVojinovic, Dina1 aAslibekyan, Stella1 aFeitosa, Mary, F1 aKho, Minjung1 aMusani, Solomon, K1 aRichard, Melissa1 aWang, Heming1 aWang, Zhe1 aBartz, Traci, M1 aBielak, Lawrence, F1 aCampbell, Archie1 aDorajoo, Rajkumar1 aFisher, Virginia1 aHartwig, Fernando, P1 aHorimoto, Andrea, R V R1 aLi, Changwei1 aLohman, Kurt, K1 aMarten, Jonathan1 aSim, Xueling1 aSmith, Albert, V1 aTajuddin, Salman, M1 aAlver, Maris1 aAmini, Marzyeh1 aBoissel, Mathilde1 aChai, Jin, Fang1 aChen, Xu1 aDivers, Jasmin1 aEvangelou, Evangelos1 aGao, Chuan1 aGraff, Mariaelisa1 aHarris, Sarah, E1 aHe, Meian1 aHsu, Fang-Chi1 aJackson, Anne, U1 aZhao, Jing Hua1 aKraja, Aldi, T1 aKuhnel, Brigitte1 aLaguzzi, Federica1 aLyytikäinen, Leo-Pekka1 aNolte, Ilja, M1 aRauramaa, Rainer1 aRiaz, Muhammad1 aRobino, Antonietta1 aRueedi, Rico1 aStringham, Heather, M1 aTakeuchi, Fumihiko1 avan der Most, Peter, J1 aVarga, Tibor, V1 aVerweij, Niek1 aWare, Erin, B1 aWen, Wanqing1 aLi, Xiaoyin1 aYanek, Lisa, R1 aAmin, Najaf1 aArnett, Donna, K1 aBoerwinkle, Eric1 aBrumat, Marco1 aCade, Brian1 aCanouil, Mickaël1 aChen, Yii-Der Ida1 aConcas, Maria, Pina1 aConnell, John1 ade Mutsert, Renée1 ade Silva, Janaka1 ade Vries, Paul, S1 aDemirkan, Ayse1 aDing, Jingzhong1 aEaton, Charles, B1 aFaul, Jessica, D1 aFriedlander, Yechiel1 aGabriel, Kelley, P1 aGhanbari, Mohsen1 aGiulianini, Franco1 aGu, Chi, Charles1 aGu, Dongfeng1 aHarris, Tamara, B1 aHe, Jiang1 aHeikkinen, Sami1 aHeng, Chew-Kiat1 aHunt, Steven, C1 aIkram, Arfan, M1 aJonas, Jost, B1 aKoh, Woon-Puay1 aKomulainen, Pirjo1 aKrieger, Jose, E1 aKritchevsky, Stephen, B1 aKutalik, Zoltán1 aKuusisto, Johanna1 aLangefeld, Carl, D1 aLangenberg, Claudia1 aLauner, Lenore, J1 aLeander, Karin1 aLemaitre, Rozenn, N1 aLewis, Cora, E1 aLiang, Jingjing1 aLiu, Jianjun1 aMägi, Reedik1 aManichaikul, Ani1 aMeitinger, Thomas1 aMetspalu, Andres1 aMilaneschi, Yuri1 aMohlke, Karen, L1 aMosley, Thomas, H1 aMurray, Alison, D1 aNalls, Mike, A1 aNang, Ei-Ei, Khaing1 aNelson, Christopher, P1 aNona, Sotoodehnia1 aNorris, Jill, M1 aNwuba, Chiamaka, Vivian1 aO'Connell, Jeff1 aPalmer, Nicholette, D1 aPapanicolau, George, J1 aPazoki, Raha1 aPedersen, Nancy, L1 aPeters, Annette1 aPeyser, Patricia, A1 aPolasek, Ozren1 aPorteous, David, J1 aPoveda, Alaitz1 aRaitakari, Olli, T1 aRich, Stephen, S1 aRisch, Neil1 aRobinson, Jennifer, G1 aRose, Lynda, M1 aRudan, Igor1 aSchreiner, Pamela, J1 aScott, Robert, A1 aSidney, Stephen, S1 aSims, Mario1 aSmith, Jennifer, A1 aSnieder, Harold1 aSofer, Tamar1 aStarr, John, M1 aSternfeld, Barbara1 aStrauch, Konstantin1 aTang, Hua1 aTaylor, Kent, D1 aTsai, Michael, Y1 aTuomilehto, Jaakko1 aUitterlinden, André, G1 avan der Ende, Yldau1 avan Heemst, Diana1 aVoortman, Trudy1 aWaldenberger, Melanie1 aWennberg, Patrik1 aWilson, Gregory1 aXiang, Yong-Bing1 aYao, Jie1 aYu, Caizheng1 aYuan, Jian-Min1 aZhao, Wei1 aZonderman, Alan, B1 aBecker, Diane, M1 aBoehnke, Michael1 aBowden, Donald, W1 ade Faire, Ulf1 aDeary, Ian, J1 aElliott, Paul1 aEsko, Tõnu1 aFreedman, Barry, I1 aFroguel, Philippe1 aGasparini, Paolo1 aGieger, Christian1 aKato, Norihiro1 aLaakso, Markku1 aLakka, Timo, A1 aLehtimäki, Terho1 aMagnusson, Patrik, K E1 aOldehinkel, Albertine, J1 aPenninx, Brenda, W J H1 aSamani, Nilesh, J1 aShu, Xiao-Ou1 aHarst, Pim1 avan Vliet-Ostaptchouk, Jana, V1 aVollenweider, Peter1 aWagenknecht, Lynne, E1 aWang, Ya, X1 aWareham, Nicholas, J1 aWeir, David, R1 aWu, Tangchun1 aZheng, Wei1 aZhu, Xiaofeng1 aEvans, Michele, K1 aFranks, Paul, W1 aGudnason, Vilmundur1 aHayward, Caroline1 aHorta, Bernardo, L1 aKelly, Tanika, N1 aLiu, Yongmei1 aNorth, Kari, E1 aPereira, Alexandre, C1 aRidker, Paul, M1 aTai, Shyong, E1 avan Dam, Rob, M1 aFox, Ervin, R1 aKardia, Sharon, L R1 aLiu, Ching-Ti1 aMook-Kanamori, Dennis, O1 aProvince, Michael, A1 aRedline, Susan1 aDuijn, Cornelia, M1 aRotter, Jerome, I1 aKooperberg, Charles, B1 aGauderman, James1 aPsaty, Bruce, M1 aRice, Kenneth1 aMunroe, Patricia, B1 aFornage, Myriam1 aCupples, Adrienne, L1 aRotimi, Charles, N1 aMorrison, Alanna, C1 aRao, Dabeeru, C1 aLoos, Ruth, J F1 aLifeLines Cohort Study uhttps://chs-nhlbi.org/node/797605243nas a2201489 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2020 eng d a1097-417200aThe Polygenic and Monogenic Basis of Blood Traits and Diseases.0 aPolygenic and Monogenic Basis of Blood Traits and Diseases c2020 Sep 03 a1214-1231.e110 v1823 aBlood cells play essential roles in human health, underpinning physiological processes such as immunity, oxygen transport, and clotting, which when perturbed cause a significant global health burden. Here we integrate data from UK Biobank and a large-scale international collaborative effort, including data for 563,085 European ancestry participants, and discover 5,106 new genetic variants independently associated with 29 blood cell phenotypes covering a range of variation impacting hematopoiesis. We holistically characterize the genetic architecture of hematopoiesis, assess the relevance of the omnigenic model to blood cell phenotypes, delineate relevant hematopoietic cell states influenced by regulatory genetic variants and gene networks, identify novel splice-altering variants mediating the associations, and assess the polygenic prediction potential for blood traits and clinical disorders at the interface of complex and Mendelian genetics. These results show the power of large-scale blood cell trait GWAS to interrogate clinically meaningful variants across a wide allelic spectrum of human variation.
1 aVuckovic, Dragana1 aBao, Erik, L1 aAkbari, Parsa1 aLareau, Caleb, A1 aMousas, Abdou1 aJiang, Tao1 aChen, Ming-Huei1 aRaffield, Laura, M1 aTardaguila, Manuel1 aHuffman, Jennifer, E1 aRitchie, Scott, C1 aMegy, Karyn1 aPonstingl, Hannes1 aPenkett, Christopher, J1 aAlbers, Patrick, K1 aWigdor, Emilie, M1 aSakaue, Saori1 aMoscati, Arden1 aManansala, Regina1 aLo, Ken, Sin1 aQian, Huijun1 aAkiyama, Masato1 aBartz, Traci, M1 aBen-Shlomo, Yoav1 aBeswick, Andrew1 aBork-Jensen, Jette1 aBottinger, Erwin, P1 aBrody, Jennifer, A1 avan Rooij, Frank, J A1 aChitrala, Kumaraswamy, N1 aWilson, Peter, W F1 aChoquet, Helene1 aDanesh, John1 aDi Angelantonio, Emanuele1 aDimou, Niki1 aDing, Jingzhong1 aElliott, Paul1 aEsko, Tõnu1 aEvans, Michele, K1 aFelix, Stephan, B1 aFloyd, James, S1 aBroer, Linda1 aGrarup, Niels1 aGuo, Michael, H1 aGuo, Qi1 aGreinacher, Andreas1 aHaessler, Jeff1 aHansen, Torben1 aHowson, Joanna, M M1 aHuang, Wei1 aJorgenson, Eric1 aKacprowski, Tim1 aKähönen, Mika1 aKamatani, Yoichiro1 aKanai, Masahiro1 aKarthikeyan, Savita1 aKoskeridis, Fotios1 aLange, Leslie, A1 aLehtimäki, Terho1 aLinneberg, Allan1 aLiu, Yongmei1 aLyytikäinen, Leo-Pekka1 aManichaikul, Ani1 aMatsuda, Koichi1 aMohlke, Karen, L1 aMononen, Nina1 aMurakami, Yoshinori1 aNadkarni, Girish, N1 aNikus, Kjell1 aPankratz, Nathan1 aPedersen, Oluf1 aPreuss, Michael1 aPsaty, Bruce, M1 aRaitakari, Olli, T1 aRich, Stephen, S1 aRodriguez, Benjamin, A T1 aRosen, Jonathan, D1 aRotter, Jerome, I1 aSchubert, Petra1 aSpracklen, Cassandra, N1 aSurendran, Praveen1 aTang, Hua1 aTardif, Jean-Claude1 aGhanbari, Mohsen1 aVölker, Uwe1 aVölzke, Henry1 aWatkins, Nicholas, A1 aWeiss, Stefan1 aCai, Na1 aKundu, Kousik1 aWatt, Stephen, B1 aWalter, Klaudia1 aZonderman, Alan, B1 aCho, Kelly1 aLi, Yun1 aLoos, Ruth, J F1 aKnight, Julian, C1 aGeorges, Michel1 aStegle, Oliver1 aEvangelou, Evangelos1 aOkada, Yukinori1 aRoberts, David, J1 aInouye, Michael1 aJohnson, Andrew, D1 aAuer, Paul, L1 aAstle, William, J1 aReiner, Alexander, P1 aButterworth, Adam, S1 aOuwehand, Willem, H1 aLettre, Guillaume1 aSankaran, Vijay, G1 aSoranzo, Nicole1 aVA Million Veteran Program uhttps://chs-nhlbi.org/node/849005226nas a2201465 4500008004100000022001400041245010900055210006900164260001600233300001800249490000800267520110800275100002001383700002301403700001801426700001801444700002501462700001901487700001901506700001501525700001801540700002201558700001701580700001501597700002201612700002501634700001701659700001701676700001701693700002101710700002301731700001901754700002001773700002001793700002101813700002001834700002301854700002401877700002301901700002601924700003101950700001501981700002001996700001902016700001702035700003002052700001602082700002002098700001802118700001602136700002202152700002002174700001702194700001802211700002002229700002402249700001902273700001902292700002402311700002002335700001502355700002002370700002002390700002002410700002302430700002002453700002402473700002202497700002102519700002202540700002102562700002102583700001702604700002802621700002102649700002202670700002002692700002102712700001802733700002402751700002402775700002002799700001702819700002402836700002102860700001902881700002002900700002002920700002302940700002202963700002102985700002903006700002303035700002203058700002003080700002803100700002303128700001403151700002403165700002503189700002103214700001703235700001903252700002503271700002303296700002303319700001203342700002503354700002803379700002803407700001703435700002003452700002203472700002503494700002303519700002303542700002003565700002003585700002303605700002503628700001803653700002203671710003103693856003603724 2020 eng d a1097-417200aTrans-ethnic and Ancestry-Specific Blood-Cell Genetics in 746,667 Individuals from 5 Global Populations.0 aTransethnic and AncestrySpecific BloodCell Genetics in 746667 In c2020 Sep 03 a1198-1213.e140 v1823 aMost loci identified by GWASs have been found in populations of European ancestry (EUR). In trans-ethnic meta-analyses for 15 hematological traits in 746,667 participants, including 184,535 non-EUR individuals, we identified 5,552 trait-variant associations at p < 5 × 10, including 71 novel associations not found in EUR populations. We also identified 28 additional novel variants in ancestry-specific, non-EUR meta-analyses, including an IL7 missense variant in South Asians associated with lymphocyte count in vivo and IL-7 secretion levels in vitro. Fine-mapping prioritized variants annotated as functional and generated 95% credible sets that were 30% smaller when using the trans-ethnic as opposed to the EUR-only results. We explored the clinical significance and predictive value of trans-ethnic variants in multiple populations and compared genetic architecture and the effect of natural selection on these blood phenotypes between populations. Altogether, our results for hematological traits highlight the value of a more global representation of populations in genetic studies.
1 aChen, Ming-Huei1 aRaffield, Laura, M1 aMousas, Abdou1 aSakaue, Saori1 aHuffman, Jennifer, E1 aMoscati, Arden1 aTrivedi, Bhavi1 aJiang, Tao1 aAkbari, Parsa1 aVuckovic, Dragana1 aBao, Erik, L1 aZhong, Xue1 aManansala, Regina1 aLaplante, Véronique1 aChen, Minhui1 aLo, Ken, Sin1 aQian, Huijun1 aLareau, Caleb, A1 aBeaudoin, Mélissa1 aHunt, Karen, A1 aAkiyama, Masato1 aBartz, Traci, M1 aBen-Shlomo, Yoav1 aBeswick, Andrew1 aBork-Jensen, Jette1 aBottinger, Erwin, P1 aBrody, Jennifer, A1 avan Rooij, Frank, J A1 aChitrala, Kumaraswamynaidu1 aCho, Kelly1 aChoquet, Helene1 aCorrea, Adolfo1 aDanesh, John1 aDi Angelantonio, Emanuele1 aDimou, Niki1 aDing, Jingzhong1 aElliott, Paul1 aEsko, Tõnu1 aEvans, Michele, K1 aFloyd, James, S1 aBroer, Linda1 aGrarup, Niels1 aGuo, Michael, H1 aGreinacher, Andreas1 aHaessler, Jeff1 aHansen, Torben1 aHowson, Joanna, M M1 aHuang, Qin, Qin1 aHuang, Wei1 aJorgenson, Eric1 aKacprowski, Tim1 aKähönen, Mika1 aKamatani, Yoichiro1 aKanai, Masahiro1 aKarthikeyan, Savita1 aKoskeridis, Fotis1 aLange, Leslie, A1 aLehtimäki, Terho1 aLerch, Markus, M1 aLinneberg, Allan1 aLiu, Yongmei1 aLyytikäinen, Leo-Pekka1 aManichaikul, Ani1 aMartin, Hilary, C1 aMatsuda, Koichi1 aMohlke, Karen, L1 aMononen, Nina1 aMurakami, Yoshinori1 aNadkarni, Girish, N1 aNauck, Matthias1 aNikus, Kjell1 aOuwehand, Willem, H1 aPankratz, Nathan1 aPedersen, Oluf1 aPreuss, Michael1 aPsaty, Bruce, M1 aRaitakari, Olli, T1 aRoberts, David, J1 aRich, Stephen, S1 aRodriguez, Benjamin, A T1 aRosen, Jonathan, D1 aRotter, Jerome, I1 aSchubert, Petra1 aSpracklen, Cassandra, N1 aSurendran, Praveen1 aTang, Hua1 aTardif, Jean-Claude1 aTrembath, Richard, C1 aGhanbari, Mohsen1 aVölker, Uwe1 aVölzke, Henry1 aWatkins, Nicholas, A1 aZonderman, Alan, B1 aWilson, Peter, W F1 aLi, Yun1 aButterworth, Adam, S1 aGauchat, Jean-François1 aChiang, Charleston, W K1 aLi, Bingshan1 aLoos, Ruth, J F1 aAstle, William, J1 aEvangelou, Evangelos1 avan Heel, David, A1 aSankaran, Vijay, G1 aOkada, Yukinori1 aSoranzo, Nicole1 aJohnson, Andrew, D1 aReiner, Alexander, P1 aAuer, Paul, L1 aLettre, Guillaume1 aVA Million Veteran Program uhttps://chs-nhlbi.org/node/848109591nas a2202833 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2021 eng d a1537-660500aDiscovery and fine-mapping of height loci via high-density imputation of GWASs in individuals of African ancestry.0 aDiscovery and finemapping of height loci via highdensity imputat c2021 Apr 01 a564-5820 v1083 aAlthough many loci have been associated with height in European ancestry populations, very few have been identified in African ancestry individuals. Furthermore, many of the known loci have yet to be generalized to and fine-mapped within a large-scale African ancestry sample. We performed sex-combined and sex-stratified meta-analyses in up to 52,764 individuals with height and genome-wide genotyping data from the African Ancestry Anthropometry Genetics Consortium (AAAGC). We additionally combined our African ancestry meta-analysis results with published European genome-wide association study (GWAS) data. In the African ancestry analyses, we identified three novel loci (SLC4A3, NCOA2, ECD/FAM149B1) in sex-combined results and two loci (CRB1, KLF6) in women only. In the African plus European sex-combined GWAS, we identified an additional three novel loci (RCCD1, G6PC3, CEP95) which were equally driven by AAAGC and European results. Among 39 genome-wide significant signals at known loci, conditioning index SNPs from European studies identified 20 secondary signals. Two of the 20 new secondary signals and none of the 8 novel loci had minor allele frequencies (MAF) < 5%. Of 802 known European height signals, 643 displayed directionally consistent associations with height, of which 205 were nominally significant (p < 0.05) in the African ancestry sex-combined sample. Furthermore, 148 of 241 loci contained ≤20 variants in the credible sets that jointly account for 99% of the posterior probability of driving the associations. In summary, trans-ethnic meta-analyses revealed novel signals and further improved fine-mapping of putative causal variants in loci shared between African and European ancestry populations.
1 aGraff, Mariaelisa1 aJustice, Anne, E1 aYoung, Kristin, L1 aMarouli, Eirini1 aZhang, Xinruo1 aFine, Rebecca, S1 aLim, Elise1 aBuchanan, Victoria1 aRand, Kristin1 aFeitosa, Mary, F1 aWojczynski, Mary, K1 aYanek, Lisa, R1 aShao, Yaming1 aRohde, Rebecca1 aAdeyemo, Adebowale, A1 aAldrich, Melinda, C1 aAllison, Matthew, A1 aAmbrosone, Christine, B1 aAmbs, Stefan1 aAmos, Christopher1 aArnett, Donna, K1 aAtwood, Larry1 aBandera, Elisa, V1 aBartz, Traci1 aBecker, Diane, M1 aBerndt, Sonja, I1 aBernstein, Leslie1 aBielak, Lawrence, F1 aBlot, William, J1 aBottinger, Erwin, P1 aBowden, Donald, W1 aBradfield, Jonathan, P1 aBrody, Jennifer, A1 aBroeckel, Ulrich1 aBurke, Gregory1 aCade, Brian, E1 aCai, Qiuyin1 aCaporaso, Neil1 aCarlson, Chris1 aCarpten, John1 aCasey, Graham1 aChanock, Stephen, J1 aChen, Guanjie1 aChen, Minhui1 aChen, Yii-der, I1 aChen, Wei-Min1 aChesi, Alessandra1 aChiang, Charleston, W K1 aChu, Lisa1 aCoetzee, Gerry, A1 aConti, David, V1 aCooper, Richard, S1 aCushman, Mary1 aDemerath, Ellen1 aDeming, Sandra, L1 aDimitrov, Latchezar1 aDing, Jingzhong1 aDiver, Ryan1 aDuan, Qing1 aEvans, Michele, K1 aFalusi, Adeyinka, G1 aFaul, Jessica, D1 aFornage, Myriam1 aFox, Caroline1 aFreedman, Barry, I1 aGarcia, Melissa1 aGillanders, Elizabeth, M1 aGoodman, Phyllis1 aGottesman, Omri1 aGrant, Struan, F A1 aGuo, Xiuqing1 aHakonarson, Hakon1 aHaritunians, Talin1 aHarris, Tamara, B1 aHarris, Curtis, C1 aHenderson, Brian, E1 aHennis, Anselm1 aHernandez, Dena, G1 aHirschhorn, Joel, N1 aMcNeill, Lorna, Haughton1 aHoward, Timothy, D1 aHoward, Barbara1 aHsing, Ann, W1 aHsu, Yu-Han, H1 aHu, Jennifer, J1 aHuff, Chad, D1 aHuo, Dezheng1 aIngles, Sue, A1 aIrvin, Marguerite, R1 aJohn, Esther, M1 aJohnson, Karen, C1 aJordan, Joanne, M1 aKabagambe, Edmond, K1 aKang, Sun, J1 aKardia, Sharon, L1 aKeating, Brendan, J1 aKittles, Rick, A1 aKlein, Eric, A1 aKolb, Suzanne1 aKolonel, Laurence, N1 aKooperberg, Charles1 aKuller, Lewis1 aKutlar, Abdullah1 aLange, Leslie1 aLangefeld, Carl, D1 aLe Marchand, Loïc1 aLeonard, Hampton1 aLettre, Guillaume1 aLevin, Albert, M1 aLi, Yun1 aLi, Jin1 aLiu, Yongmei1 aLiu, Youfang1 aLiu, Simin1 aLohman, Kurt1 aLotay, Vaneet1 aLu, Yingchang1 aMaixner, William1 aManson, JoAnn, E1 aMcKnight, Barbara1 aMeng, Yan1 aMonda, Keri, L1 aMonroe, Kris1 aMoore, Jason, H1 aMosley, Thomas, H1 aMudgal, Poorva1 aMurphy, Adam, B1 aNadukuru, Raj1 aNalls, Mike, A1 aNathanson, Katherine, L1 aNayak, Uma1 aN'diaye, Amidou1 aNemesure, Barbara1 aNeslund-Dudas, Christine1 aNeuhouser, Marian, L1 aNyante, Sarah1 aOchs-Balcom, Heather1 aOgundiran, Temidayo, O1 aOgunniyi, Adesola1 aOjengbede, Oladosu1 aOkut, Hayrettin1 aOlopade, Olufunmilayo, I1 aOlshan, Andrew1 aPadhukasahasram, Badri1 aPalmer, Julie1 aPalmer, Cameron, D1 aPalmer, Nicholette, D1 aPapanicolaou, George1 aPatel, Sanjay, R1 aPettaway, Curtis, A1 aPeyser, Patricia, A1 aPress, Michael, F1 aRao, D, C1 aRasmussen-Torvik, Laura, J1 aRedline, Susan1 aReiner, Alex, P1 aRhie, Suhn, K1 aRodriguez-Gil, Jorge, L1 aRotimi, Charles, N1 aRotter, Jerome, I1 aRuiz-Narvaez, Edward, A1 aRybicki, Benjamin, A1 aSalako, Babatunde1 aSale, Michèle, M1 aSanderson, Maureen1 aSchadt, Eric1 aSchreiner, Pamela, J1 aSchurmann, Claudia1 aSchwartz, Ann, G1 aShriner, Daniel, A1 aSignorello, Lisa, B1 aSingleton, Andrew, B1 aSiscovick, David, S1 aSmith, Jennifer, A1 aSmith, Shad1 aSpeliotes, Elizabeth1 aSpitz, Margaret1 aStanford, Janet, L1 aStevens, Victoria, L1 aStram, Alex1 aStrom, Sara, S1 aSucheston, Lara1 aSun, Yan, V1 aTajuddin, Salman, M1 aTaylor, Herman1 aTaylor, Kira1 aTayo, Bamidele, O1 aThun, Michael, J1 aTucker, Margaret, A1 aVaidya, Dhananjay1 aVan Den Berg, David, J1 aVedantam, Sailaja1 aVitolins, Mara1 aWang, Zhaoming1 aWare, Erin, B1 aWassertheil-Smoller, Sylvia1 aWeir, David, R1 aWiencke, John, K1 aWilliams, Scott, M1 aWilliams, Keoki1 aWilson, James, G1 aWitte, John, S1 aWrensch, Margaret1 aWu, Xifeng1 aYao, Jie1 aZakai, Neil1 aZanetti, Krista1 aZemel, Babette, S1 aZhao, Wei1 aZhao, Jing Hua1 aZheng, Wei1 aZhi, Degui1 aZhou, Jie1 aZhu, Xiaofeng1 aZiegler, Regina, G1 aZmuda, Joe1 aZonderman, Alan, B1 aPsaty, Bruce, M1 aBorecki, Ingrid, B1 aCupples, Adrienne, L1 aLiu, Ching-Ti1 aHaiman, Christopher, A1 aLoos, Ruth1 aC Y Ng, Maggie1 aNorth, Kari, E uhttps://chs-nhlbi.org/node/8705