@article {7586, title = {Leisure-time physical activity and leukocyte telomere length among older women.}, journal = {Exp Gerontol}, volume = {95}, year = {2017}, month = {2017 Sep}, pages = {141-147}, abstract = {

BACKGROUND: Shortened leukocyte telomere length (LTL), a purported marker of cellular aging, is associated with morbidity and mortality. However, the association of physical activity, a modifiable lifestyle behavior, with LTL has not been adequately studied among older adults.

METHODS: In this cross-sectional study, we examined associations of various intensity levels of leisure-time physical activity with LTL among 1476 older white and African American women from the Women{\textquoteright}s Health Initiative Objective Physical Activity and Cardiovascular Health study. Self-reported physical activity was assessed by questionnaire, and LTL was measured by Southern blot. The association between physical activity and LTL was evaluated using multiple linear regression models adjusted for demographic characteristics, lifestyle behaviors, and health-related variables.

RESULTS: Women were on average aged 79.2 (standard deviation 6.7) years old. In the final model adjusted for age, race/ethnicity, education, marital status, smoking, alcohol, body mass index, a history of chronic diseases, and hormone therapy use, LTL was on average 110 (95\% confidence interval, 20-190) base pairs longer among women in the highest (>=17.00MET-hours/week) compared with the lowest (<1.25MET-hours/week) level of total leisure-time physical activity (P for trend=0.02). Higher levels of moderate-to-vigorous physical activity (P for trend=0.04) and faster walking speed (P for trend=0.03) were also associated with longer LTL in the fully-adjusted models.

CONCLUSION: Older women participating in greater amounts of total leisure-time physical activity and moderate-to-vigorous physical activity had longer LTL.

}, issn = {1873-6815}, doi = {10.1016/j.exger.2017.05.019}, author = {Shadyab, Aladdin H and Lamonte, Michael J and Kooperberg, Charles and Reiner, Alexander P and Carty, Cara L and Manini, Todd M and Hou, Lifang and Di, Chongzhi and Macera, Caroline A and Gallo, Linda C and Shaffer, Richard A and Jain, Sonia and LaCroix, Andrea Z} } @article {8777, title = {Blood n-3 fatty acid levels and total and cause-specific mortality from 17 prospective studies.}, journal = {Nat Commun}, volume = {12}, year = {2021}, month = {2021 04 22}, pages = {2329}, abstract = {

The health effects of omega-3 fatty acids have been controversial. Here we report the results of a de novo pooled analysis conducted with data from 17 prospective cohort studies examining the associations between blood omega-3 fatty acid levels and risk for all-cause mortality. Over a median of 16 years of follow-up, 15,720 deaths occurred among 42,466 individuals. We found that, after multivariable adjustment for relevant risk factors, risk for death from all causes was significantly lower (by 15-18\%, at least p < 0.003) in the highest vs the lowest quintile for circulating long chain (20-22 carbon) omega-3 fatty acids (eicosapentaenoic, docosapentaenoic, and docosahexaenoic acids). Similar relationships were seen for death from cardiovascular disease, cancer and other causes. No associations were seen with the 18-carbon omega-3, alpha-linolenic acid. These findings suggest that higher circulating levels of marine n-3 PUFA are associated with a lower risk of premature death.

}, keywords = {Aged, Aged, 80 and over, Cause of Death, Fatty Acids, Omega-3, Female, Follow-Up Studies, Humans, Male, Middle Aged, Mortality, Premature, Prospective Studies, Protective Factors, Risk Factors}, issn = {2041-1723}, doi = {10.1038/s41467-021-22370-2}, author = {Harris, William S and Tintle, Nathan L and Imamura, Fumiaki and Qian, Frank and Korat, Andres V Ardisson and Marklund, Matti and Djouss{\'e}, Luc and Bassett, Julie K and Carmichael, Pierre-Hugues and Chen, Yun-Yu and Hirakawa, Yoichiro and K{\"u}pers, Leanne K and Laguzzi, Federica and Lankinen, Maria and Murphy, Rachel A and Samieri, Cecilia and Senn, Mackenzie K and Shi, Peilin and Virtanen, Jyrki K and Brouwer, Ingeborg A and Chien, Kuo-Liong and Eiriksdottir, Gudny and Forouhi, Nita G and Geleijnse, Johanna M and Giles, Graham G and Gudnason, Vilmundur and Helmer, Catherine and Hodge, Allison and Jackson, Rebecca and Khaw, Kay-Tee and Laakso, Markku and Lai, Heidi and Laurin, Danielle and Leander, Karin and Lindsay, Joan and Micha, Renata and Mursu, Jaako and Ninomiya, Toshiharu and Post, Wendy and Psaty, Bruce M and Riserus, Ulf and Robinson, Jennifer G and Shadyab, Aladdin H and Snetselaar, Linda and Sala-Vila, Aleix and Sun, Yangbo and Steffen, Lyn M and Tsai, Michael Y and Wareham, Nicholas J and Wood, Alexis C and Wu, Jason H Y and Hu, Frank and Sun, Qi and Siscovick, David S and Lemaitre, Rozenn N and Mozaffarian, Dariush} } @article {9042, title = {Assessing the contribution of rare variants to complex trait heritability from whole-genome sequence data.}, journal = {Nat Genet}, volume = {54}, year = {2022}, month = {2022 Mar}, pages = {263-273}, abstract = {

Analyses of data from genome-wide association studies on unrelated individuals have shown that, for human traits and diseases, approximately one-third to two-thirds of heritability is captured by common SNPs. However, it is not known whether the remaining heritability is due to the imperfect tagging of causal variants by common SNPs, in particular whether the causal variants are rare, or whether it is overestimated due to bias in inference from pedigree data. Here we estimated heritability for height and body mass index (BMI) from whole-genome sequence data on 25,465 unrelated individuals of European ancestry. The estimated heritability was 0.68 (standard error 0.10) for height and 0.30 (standard error 0.10) for body mass index. Low minor allele frequency variants in low linkage disequilibrium (LD) with neighboring variants were enriched for heritability, to a greater extent for protein-altering variants, consistent with negative selection. Our results imply that rare variants, in particular those in regions of low linkage disequilibrium, are a major source of the still missing heritability of complex traits and disease.

}, issn = {1546-1718}, doi = {10.1038/s41588-021-00997-7}, author = {Wainschtein, Pierrick and Jain, Deepti and Zheng, Zhili and Cupples, L Adrienne and Shadyab, Aladdin H and McKnight, Barbara and Shoemaker, Benjamin M and Mitchell, Braxton D and Psaty, Bruce M and Kooperberg, Charles and Liu, Ching-Ti and Albert, Christine M and Roden, Dan and Chasman, Daniel I and Darbar, Dawood and Lloyd-Jones, Donald M and Arnett, Donna K and Regan, Elizabeth A and Boerwinkle, Eric and Rotter, Jerome I and O{\textquoteright}Connell, Jeffrey R and Yanek, Lisa R and de Andrade, Mariza and Allison, Matthew A and McDonald, Merry-Lynn N and Chung, Mina K and Fornage, Myriam and Chami, Nathalie and Smith, Nicholas L and Ellinor, Patrick T and Vasan, Ramachandran S and Mathias, Rasika A and Loos, Ruth J F and Rich, Stephen S and Lubitz, Steven A and Heckbert, Susan R and Redline, Susan and Guo, Xiuqing and Chen, Y -D Ida and Laurie, Cecelia A and Hernandez, Ryan D and McGarvey, Stephen T and Goddard, Michael E and Laurie, Cathy C and North, Kari E and Lange, Leslie A and Weir, Bruce S and Yengo, Loic and Yang, Jian and Visscher, Peter M} } @article {9455, title = {PUFA ω-3 and ω-6 biomarkers and sleep: a pooled analysis of cohort studies on behalf of the Fatty Acids and Outcomes Research Consortium (FORCE).}, journal = {Am J Clin Nutr}, volume = {115}, year = {2022}, month = {2022 Mar 04}, pages = {864-876}, abstract = {

BACKGROUND: n-3 and n-6 PUFAs have physiologic roles in sleep processes, but little is known regarding circulating n-3 and n-6 PUFA and sleep parameters.

OBJECTIVES: We sought to assess associations between biomarkers of n-3 and n-6 PUFA intake with self-reported sleep duration and difficulty falling sleeping in the Fatty Acids and Outcome Research Consortium.

METHODS: Harmonized, de novo, individual-level analyses were performed and pooled across 12 cohorts. Participants were 35-96 y old and from 5 nations. Circulating measures included α-linolenic acid (ALA), EPA, docosapentaenoic acid (DPA), DHA, EPA~+~DPA~+~DHA, linoleic acid, and arachidonic acid. Sleep duration (10 cohorts, n~=~18,791) was categorized as short (<=6 h), 7-8 h (reference), or long (>=9 h). Difficulty falling asleep (8 cohorts, n~=~12,500) was categorized as yes or no. Associations between PUFAs, sleep duration, and difficulty falling sleeping were assessed by cross-sectional multinomial logistic regression using standardized protocols and covariates. Cohort-specific multivariable-adjusted ORs per quintile of PUFAs were pooled with inverse-variance weighted meta-analysis.

RESULTS: In pooled analysis adjusted for sociodemographic characteristics and health status, participants with higher very long-chain n-3 PUFAs were less likely to have long sleep duration. In the top compared with the bottom quintiles, the multivariable-adjusted ORs (95\% CIs) for long sleep were 0.78 (95\% CI: 0.65, 0.95) for DHA and 0.76 (95\% CI: 0.63, 0.93) for EPA~+~DPA~+~DHA. Significant associations for ALA and n-6 PUFA with short sleep duration or difficulty falling sleeping were not identified.

CONCLUSIONS: Participants with higher concentrations of very long-chain n-3 PUFAs were less likely to have long sleep duration. While objective biomarkers reduce recall bias and misclassification, the cross-sectional design limits assessment of the temporal nature of this relation. These novel findings across 12 cohorts highlight the need for experimental and biological assessments of very long-chain n-3 PUFAs and sleep duration.

}, keywords = {Biomarkers, Cohort Studies, Cross-Sectional Studies, Fatty Acids, Fatty Acids, Omega-3, Humans, Outcome Assessment, Health Care, Sleep}, issn = {1938-3207}, doi = {10.1093/ajcn/nqab408}, author = {Murphy, Rachel A and Tintle, Nathan and Harris, William S and Darvishian, Maryam and Marklund, Matti and Virtanen, Jyrki K and Hantunen, Sari and de Mello, Vanessa D and Tuomilehto, Jaakko and Lindstr{\"o}m, Jaana and Bolt, Matthew A and Brouwer, Ingeborg A and Wood, Alexis C and Senn, Mackenzie and Redline, Susan and Tsai, Michael Y and Gudnason, Vilmundur and Eiriksdottir, Gudny and Lindberg, Eva and Shadyab, Aladdin H and Liu, Buyun and Carnethon, Mercedes and Uusitupa, Matti and Djouss{\'e}, Luc and Riserus, Ulf and Lind, Lars and van Dam, Rob M and Koh, Woon-Puay and Shi, Peilin and Siscovick, David and Lemaitre, Rozenn N and Mozaffarian, Dariush} } @article {9168, title = {Rare genetic variants explain missing heritability in smoking.}, journal = {Nat Hum Behav}, year = {2022}, month = {2022 Aug 04}, abstract = {

Common genetic variants explain less variation in complex phenotypes than inferred from family-based studies, and there is a debate on the source of this {\textquoteright}missing heritability{\textquoteright}. We investigated the contribution of rare genetic variants to tobacco use with whole-genome sequences from up to 26,257 unrelated individuals of European ancestries and 11,743 individuals of African ancestries. Across four smoking traits, single-nucleotide-polymorphism-based heritability ([Formula: see text]) was estimated from 0.13 to 0.28 (s.e., 0.10-0.13) in European ancestries, with 35-74\% of it attributable to rare variants with minor allele frequencies between 0.01\% and 1\%. These heritability estimates are 1.5-4 times higher than past estimates based on common variants alone and accounted for 60\% to 100\% of our pedigree-based estimates of narrow-sense heritability ([Formula: see text], 0.18-0.34). In the African ancestry samples, [Formula: see text] was estimated from 0.03 to 0.33 (s.e., 0.09-0.14) across the four smoking traits. These results suggest that rare variants are important contributors to the heritability of smoking.

}, issn = {2397-3374}, doi = {10.1038/s41562-022-01408-5}, author = {Jang, Seon-Kyeong and Evans, Luke and Fialkowski, Allison and Arnett, Donna K and Ashley-Koch, Allison E and Barnes, Kathleen C and Becker, Diane M and Bis, Joshua C and Blangero, John and Bleecker, Eugene R and Boorgula, Meher Preethi and Bowden, Donald W and Brody, Jennifer A and Cade, Brian E and Jenkins, Brenda W Campbell and Carson, April P and Chavan, Sameer and Cupples, L Adrienne and Custer, Brian and Damrauer, Scott M and David, Sean P and de Andrade, Mariza and Dinardo, Carla L and Fingerlin, Tasha E and Fornage, Myriam and Freedman, Barry I and Garrett, Melanie E and Gharib, Sina A and Glahn, David C and Haessler, Jeffrey and Heckbert, Susan R and Hokanson, John E and Hou, Lifang and Hwang, Shih-Jen and Hyman, Matthew C and Judy, Renae and Justice, Anne E and Kaplan, Robert C and Kardia, Sharon L R and Kelly, Shannon and Kim, Wonji and Kooperberg, Charles and Levy, Daniel and Lloyd-Jones, Donald M and Loos, Ruth J F and Manichaikul, Ani W and Gladwin, Mark T and Martin, Lisa Warsinger and Nouraie, Mehdi and Melander, Olle and Meyers, Deborah A and Montgomery, Courtney G and North, Kari E and Oelsner, Elizabeth C and Palmer, Nicholette D and Payton, Marinelle and Peljto, Anna L and Peyser, Patricia A and Preuss, Michael and Psaty, Bruce M and Qiao, Dandi and Rader, Daniel J and Rafaels, Nicholas and Redline, Susan and Reed, Robert M and Reiner, Alexander P and Rich, Stephen S and Rotter, Jerome I and Schwartz, David A and Shadyab, Aladdin H and Silverman, Edwin K and Smith, Nicholas L and Smith, J Gustav and Smith, Albert V and Smith, Jennifer A and Tang, Weihong and Taylor, Kent D and Telen, Marilyn J and Vasan, Ramachandran S and Gordeuk, Victor R and Wang, Zhe and Wiggins, Kerri L and Yanek, Lisa R and Yang, Ivana V and Young, Kendra A and Young, Kristin L and Zhang, Yingze and Liu, Dajiang J and Keller, Matthew C and Vrieze, Scott} } @article {9412, title = {Multi-ancestry transcriptome-wide association analyses yield insights into tobacco use biology and drug repurposing.}, journal = {Nat Genet}, volume = {55}, year = {2023}, month = {2023 Feb}, pages = {291-300}, abstract = {

Most transcriptome-wide association studies (TWASs) so far focus on European ancestry and lack diversity. To overcome this limitation, we aggregated genome-wide association study (GWAS) summary statistics, whole-genome sequences and expression quantitative trait locus (eQTL) data from diverse ancestries. We developed a new approach, TESLA (multi-ancestry integrative study using an optimal linear combination of association statistics), to integrate an eQTL dataset with a multi-ancestry GWAS. By exploiting shared phenotypic effects between ancestries and accommodating potential effect heterogeneities, TESLA improves power over other TWAS methods. When applied to tobacco use phenotypes, TESLA identified 273 new genes, up to 55\% more compared with alternative TWAS methods. These hits and subsequent fine mapping using TESLA point to target genes with biological relevance. In silico drug-repurposing analyses highlight several drugs with known efficacy, including dextromethorphan and galantamine, and new drugs such as muscle relaxants that may be repurposed for treating nicotine addiction.

}, keywords = {Biology, Drug Repositioning, Genetic Predisposition to Disease, Genome-Wide Association Study, Humans, Polymorphism, Single Nucleotide, Tobacco Use, Transcriptome}, issn = {1546-1718}, doi = {10.1038/s41588-022-01282-x}, author = {Chen, Fang and Wang, Xingyan and Jang, Seon-Kyeong and Quach, Bryan C and Weissenkampen, J Dylan and Khunsriraksakul, Chachrit and Yang, Lina and Sauteraud, Renan and Albert, Christine M and Allred, Nicholette D D and Arnett, Donna K and Ashley-Koch, Allison E and Barnes, Kathleen C and Barr, R Graham and Becker, Diane M and Bielak, Lawrence F and Bis, Joshua C and Blangero, John and Boorgula, Meher Preethi and Chasman, Daniel I and Chavan, Sameer and Chen, Yii-der I and Chuang, Lee-Ming and Correa, Adolfo and Curran, Joanne E and David, Sean P and Fuentes, Lisa de Las and Deka, Ranjan and Duggirala, Ravindranath and Faul, Jessica D and Garrett, Melanie E and Gharib, Sina A and Guo, Xiuqing and Hall, Michael E and Hawley, Nicola L and He, Jiang and Hobbs, Brian D and Hokanson, John E and Hsiung, Chao A and Hwang, Shih-Jen and Hyde, Thomas M and Irvin, Marguerite R and Jaffe, Andrew E and Johnson, Eric O and Kaplan, Robert and Kardia, Sharon L R and Kaufman, Joel D and Kelly, Tanika N and Kleinman, Joel E and Kooperberg, Charles and Lee, I-Te and Levy, Daniel and Lutz, Sharon M and Manichaikul, Ani W and Martin, Lisa W and Marx, Olivia and McGarvey, Stephen T and Minster, Ryan L and Moll, Matthew and Moussa, Karine A and Naseri, Take and North, Kari E and Oelsner, Elizabeth C and Peralta, Juan M and Peyser, Patricia A and Psaty, Bruce M and Rafaels, Nicholas and Raffield, Laura M and Reupena, Muagututi{\textquoteright}a Sefuiva and Rich, Stephen S and Rotter, Jerome I and Schwartz, David A and Shadyab, Aladdin H and Sheu, Wayne H-H and Sims, Mario and Smith, Jennifer A and Sun, Xiao and Taylor, Kent D and Telen, Marilyn J and Watson, Harold and Weeks, Daniel E and Weir, David R and Yanek, Lisa R and Young, Kendra A and Young, Kristin L and Zhao, Wei and Hancock, Dana B and Jiang, Bibo and Vrieze, Scott and Liu, Dajiang J} }