05814nas a2201345 4500008004100000022001400041245014200055210006900197260001300266300001300279490000700292520193700299653002202236653003002258653003402288653002002322653001802342653001102360653002802371653002902399653003602428653004202464100001902506700002002525700001902545700001402564700001802578700001702596700001802613700002602631700001902657700002202676700002002698700003102718700002302749700002102772700001602793700001302809700002102822700001802843700001702861700002402878700002302902700001802925700002402943700002602967700001902993700002303012700002003035700002303055700002603078700001503104700002203119700002203141700001903163700002203182700001903204700001603223700001803239700002103257700002103278700002303299700001803322700001803340700002303358700002203381700002503403700002303428700001903451700001903470700002503489700002403514700002203538700001803560700001703578700001903595700001403614700002403628700001603652700002503668700002403693700002003717700001603737700001503753700002103768700002103789700002503810700002203835700002003857700002103877700002003898700001703918700002003935700002303955700002403978700002404002700002004026700002004046700002204066700002204088700002104110700002004131700002104151700002204172700002204194700001504216700002304231700002204254710002004276710002204296710002304318710002204341710006904363856003604432 2014 eng d a1553-740400aMeta-analysis of genome-wide association studies in African Americans provides insights into the genetic architecture of type 2 diabetes.0 aMetaanalysis of genomewide association studies in African Americ c2014 Aug ae10045170 v103 a
Type 2 diabetes (T2D) is more prevalent in African Americans than in Europeans. However, little is known about the genetic risk in African Americans despite the recent identification of more than 70 T2D loci primarily by genome-wide association studies (GWAS) in individuals of European ancestry. In order to investigate the genetic architecture of T2D in African Americans, the MEta-analysis of type 2 DIabetes in African Americans (MEDIA) Consortium examined 17 GWAS on T2D comprising 8,284 cases and 15,543 controls in African Americans in stage 1 analysis. Single nucleotide polymorphisms (SNPs) association analysis was conducted in each study under the additive model after adjustment for age, sex, study site, and principal components. Meta-analysis of approximately 2.6 million genotyped and imputed SNPs in all studies was conducted using an inverse variance-weighted fixed effect model. Replications were performed to follow up 21 loci in up to 6,061 cases and 5,483 controls in African Americans, and 8,130 cases and 38,987 controls of European ancestry. We identified three known loci (TCF7L2, HMGA2 and KCNQ1) and two novel loci (HLA-B and INS-IGF2) at genome-wide significance (4.15 × 10(-94)
10aAfrican Americans10aDiabetes Mellitus, Type 210aGenome-Wide Association Study10aHLA-B27 Antigen10aHMGA2 Protein10aHumans10aKCNQ1 Potassium Channel10aMutant Chimeric Proteins10aPolymorphism, Single Nucleotide10aTranscription Factor 7-Like 2 Protein1 aC Y Ng, Maggie1 aShriner, Daniel1 aChen, Brian, H1 aLi, Jiang1 aChen, Wei-Min1 aGuo, Xiuqing1 aLiu, Jiankang1 aBielinski, Suzette, J1 aYanek, Lisa, R1 aNalls, Michael, A1 aComeau, Mary, E1 aRasmussen-Torvik, Laura, J1 aJensen, Richard, A1 aEvans, Daniel, S1 aSun, Yan, V1 aAn, Ping1 aPatel, Sanjay, R1 aLu, Yingchang1 aLong, Jirong1 aArmstrong, Loren, L1 aWagenknecht, Lynne1 aYang, Lingyao1 aSnively, Beverly, M1 aPalmer, Nicholette, D1 aMudgal, Poorva1 aLangefeld, Carl, D1 aKeene, Keith, L1 aFreedman, Barry, I1 aMychaleckyj, Josyf, C1 aNayak, Uma1 aRaffel, Leslie, J1 aGoodarzi, Mark, O1 aChen, Y-D, Ida1 aTaylor, Herman, A1 aCorrea, Adolfo1 aSims, Mario1 aCouper, David1 aPankow, James, S1 aBoerwinkle, Eric1 aAdeyemo, Adebowale1 aDoumatey, Ayo1 aChen, Guanjie1 aMathias, Rasika, A1 aVaidya, Dhananjay1 aSingleton, Andrew, B1 aZonderman, Alan, B1 aIgo, Robert, P1 aSedor, John, R1 aKabagambe, Edmond, K1 aSiscovick, David, S1 aMcKnight, Barbara1 aRice, Kenneth1 aLiu, Yongmei1 aHsueh, Wen-Chi1 aZhao, Wei1 aBielak, Lawrence, F1 aKraja, Aldi1 aProvince, Michael, A1 aBottinger, Erwin, P1 aGottesman, Omri1 aCai, Qiuyin1 aZheng, Wei1 aBlot, William, J1 aLowe, William, L1 aPacheco, Jennifer, A1 aCrawford, Dana, C1 aGrundberg, Elin1 aRich, Stephen, S1 aHayes, Geoffrey1 aShu, Xiao-Ou1 aLoos, Ruth, J F1 aBorecki, Ingrid, B1 aPeyser, Patricia, A1 aCummings, Steven, R1 aPsaty, Bruce, M1 aFornage, Myriam1 aIyengar, Sudha, K1 aEvans, Michele, K1 aBecker, Diane, M1 aKao, Linda, W H1 aWilson, James, G1 aRotter, Jerome, I1 aSale, Michèle, M1 aLiu, Simin1 aRotimi, Charles, N1 aBowden, Donald, W1 aFIND Consortium1 aeMERGE Consortium1 aDIAGRAM Consortium1 aMuTHER Consortium1 aMEta-analysis of type 2 DIabetes in African Americans Consortium uhttps://chs-nhlbi.org/node/658509141nas a2202533 4500008004100000022001400041245008200055210006900137260001600206520188300222100001902105700001802124700002202142700002202164700002002186700002202206700002502228700001802253700002202271700001802293700001402311700002502325700001602350700001802366700001902384700002002403700001502423700003202438700003302470700001802503700001802521700002002539700002202559700001802581700002002599700002802619700001702647700001702664700002902681700001602710700002702726700002202753700002402775700001802799700002802817700001902845700001902864700001902883700001702902700002202919700002502941700002002966700002002986700002203006700001903028700002203047700001903069700001603088700002003104700001503124700002003139700002103159700001803180700002203198700001903220700002103239700002403260700002503284700002203309700002403331700001403355700001303369700002103382700001603403700002203419700002303441700002603464700002003490700001903510700002303529700002003552700002303572700002003595700002303615700002303638700002103661700001603682700001703698700002203715700001803737700001703755700001403772700001503786700002103801700002003822700002503842700002203867700002503889700002603914700002303940700002203963700001903985700002804004700002504032700002004057700003104077700002104108700002004129700002004149700002104169700002104190700002204211700002004233700002104253700002904274700002004303700003304323700001904356700002604375700002404401700002104425700002304446700002104469700001804490700001604508700001604524700001904540700002304559700002804582700002204610700003204632700002004664700002404684700002604708700002104734700001604755700002204771700002204793700002104815700001604836700002304852700001604875700001604891700002004907700002204927700002204949700002404971700001904995700001905014700002105033700002005054700002005074700001905094700002205113700002405135700002505159700001705184700003205201700002305233700002305256700002005279700002505299700002105324700001605345700002605361700001805387700002405405700001605429700002205445700002505467700002505492700001805517700002605535700002105561700003005582700002005612700001905632700002105651700002105672700002305693700002305716700002205739700002905761700002205790700002305812700002005835700001805855700002005873700003005893700002205923700002305945700002305968700002505991700001706016700002306033700002106056700002306077710002306100710002206123710007406145710002106219710002406240710002306264710004106287710002606328710002106354710004706375710003106422710005206453710001806505710002206523710002606545856003606571 2022 eng d a1476-468700aStroke genetics informs drug discovery and risk prediction across ancestries.0 aStroke genetics informs drug discovery and risk prediction acros c2022 Sep 303 a
Previous genome-wide association studies (GWASs) of stroke - the second leading cause of death worldwide - were conducted predominantly in populations of European ancestry. Here, in cross-ancestry GWAS meta-analyses of 110,182 patients who have had a stroke (five ancestries, 33% non-European) and 1,503,898 control individuals, we identify association signals for stroke and its subtypes at 89 (61 new) independent loci: 60 in primary inverse-variance-weighted analyses and 29 in secondary meta-regression and multitrait analyses. On the basis of internal cross-ancestry validation and an independent follow-up in 89,084 additional cases of stroke (30% non-European) and 1,013,843 control individuals, 87% of the primary stroke risk loci and 60% of the secondary stroke risk loci were replicated (P < 0.05). Effect sizes were highly correlated across ancestries. Cross-ancestry fine-mapping, in silico mutagenesis analysis, and transcriptome-wide and proteome-wide association analyses revealed putative causal genes (such as SH3PXD2A and FURIN) and variants (such as at GRK5 and NOS3). Using a three-pronged approach, we provide genetic evidence for putative drug effects, highlighting F11, KLKB1, PROC, GP1BA, LAMC2 and VCAM1 as possible targets, with drugs already under investigation for stroke for F11 and PROC. A polygenic score integrating cross-ancestry and ancestry-specific stroke GWASs with vascular-risk factor GWASs (integrative polygenic scores) strongly predicted ischaemic stroke in populations of European, East Asian and African ancestry. Stroke genetic risk scores were predictive of ischaemic stroke independent of clinical risk factors in 52,600 clinical-trial participants with cardiometabolic disease. Our results provide insights to inform biology, reveal potential drug targets and derive genetic risk prediction tools across ancestries.
1 aMishra, Aniket1 aMalik, Rainer1 aHachiya, Tsuyoshi1 aJürgenson, Tuuli1 aNamba, Shinichi1 aPosner, Daniel, C1 aKamanu, Frederick, K1 aKoido, Masaru1 aLe Grand, Quentin1 aShi, Mingyang1 aHe, Yunye1 aGeorgakis, Marios, K1 aCaro, Ilana1 aKrebs, Kristi1 aLiaw, Yi-Ching1 aVaura, Felix, C1 aLin, Kuang1 aWinsvold, Bendik, Slagsvold1 aSrinivasasainagendra, Vinodh1 aParodi, Livia1 aBae, Hee-Joon1 aChauhan, Ganesh1 aChong, Michael, R1 aTomppo, Liisa1 aAkinyemi, Rufus1 aRoshchupkin, Gennady, V1 aHabib, Naomi1 aJee, Yon, Ho1 aThomassen, Jesper, Qvist1 aAbedi, Vida1 aCárcel-Márquez, Jara1 aNygaard, Marianne1 aLeonard, Hampton, L1 aYang, Chaojie1 aYonova-Doing, Ekaterina1 aKnol, Maria, J1 aLewis, Adam, J1 aJudy, Renae, L1 aAgo, Tetsuro1 aAmouyel, Philippe1 aArmstrong, Nicole, D1 aBakker, Mark, K1 aBartz, Traci, M1 aBennett, David, A1 aBis, Joshua, C1 aBordes, Constance1 aBørte, Sigrid1 aCain, Anael1 aRidker, Paul, M1 aCho, Kelly1 aChen, Zhengming1 aCruchaga, Carlos1 aCole, John, W1 aDe Jager, Phil, L1 ade Cid, Rafael1 aEndres, Matthias1 aFerreira, Leslie, E1 aGeerlings, Mirjam, I1 aGasca, Natalie, C1 aGudnason, Vilmundur1 aHata, Jun1 aHe, Jing1 aHeath, Alicia, K1 aHo, Yuk-Lam1 aHavulinna, Aki, S1 aHopewell, Jemma, C1 aHyacinth, Hyacinth, I1 aInouye, Michael1 aJacob, Mina, A1 aJeon, Christina, E1 aJern, Christina1 aKamouchi, Masahiro1 aKeene, Keith, L1 aKitazono, Takanari1 aKittner, Steven, J1 aKonuma, Takahiro1 aKumar, Amit1 aLacaze, Paul1 aLauner, Lenore, J1 aLee, Keon-Joo1 aLepik, Kaido1 aLi, Jiang1 aLi, Liming1 aManichaikul, Ani1 aMarkus, Hugh, S1 aMarston, Nicholas, A1 aMeitinger, Thomas1 aMitchell, Braxton, D1 aMontellano, Felipe, A1 aMorisaki, Takayuki1 aMosley, Thomas, H1 aNalls, Mike, A1 aNordestgaard, Børge, G1 aO'Donnell, Martin, J1 aOkada, Yukinori1 aOnland-Moret, Charlotte, N1 aOvbiagele, Bruce1 aPeters, Annette1 aPsaty, Bruce, M1 aRich, Stephen, S1 aRosand, Jonathan1 aSabatine, Marc, S1 aSacco, Ralph, L1 aSaleheen, Danish1 aSandset, Else, Charlotte1 aSalomaa, Veikko1 aSargurupremraj, Muralidharan1 aSasaki, Makoto1 aSatizabal, Claudia, L1 aSchmidt, Carsten, O1 aShimizu, Atsushi1 aSmith, Nicholas, L1 aSloane, Kelly, L1 aSutoh, Yoichi1 aSun, Yan, V1 aTanno, Kozo1 aTiedt, Steffen1 aTatlisumak, Turgut1 aTorres-Aguila, Nuria, P1 aTiwari, Hemant, K1 aTrégouët, David-Alexandre1 aTrompet, Stella1 aTuladhar, Anil, Man1 aTybjærg-Hansen, Anne1 avan Vugt, Marion1 aVibo, Riina1 aVerma, Shefali, S1 aWiggins, Kerri, L1 aWennberg, Patrik1 aWoo, Daniel1 aWilson, Peter, W F1 aXu, Huichun1 aYang, Qiong1 aYoon, Kyungheon1 aMillwood, Iona, Y1 aGieger, Christian1 aNinomiya, Toshiharu1 aGrabe, Hans, J1 aJukema, Wouter1 aRissanen, Ina, L1 aStrbian, Daniel1 aKim, Young, Jin1 aChen, Pei-Hsin1 aMayerhofer, Ernst1 aHowson, Joanna, M M1 aIrvin, Marguerite, R1 aAdams, Hieab1 aWassertheil-Smoller, Sylvia1 aChristensen, Kaare1 aIkram, Mohammad, A1 aRundek, Tatjana1 aWorrall, Bradford, B1 aLathrop, Mark, G1 aRiaz, Moeen1 aSimonsick, Eleanor, M1 aKõrv, Janika1 aFrança, Paulo, H C1 aZand, Ramin1 aPrasad, Kameshwar1 aFrikke-Schmidt, Ruth1 ade Leeuw, Frank-Erik1 aLiman, Thomas1 aHaeusler, Karl, Georg1 aRuigrok, Ynte, M1 aHeuschmann, Peter, Ulrich1 aLongstreth, W T1 aJung, Keum, Ji1 aBastarache, Lisa1 aParé, Guillaume1 aDamrauer, Scott, M1 aChasman, Daniel, I1 aRotter, Jerome, I1 aAnderson, Christopher, D1 aZwart, John-Anker1 aNiiranen, Teemu, J1 aFornage, Myriam1 aLiaw, Yung-Po1 aSeshadri, Sudha1 aFernandez-Cadenas, Israel1 aWalters, Robin, G1 aRuff, Christian, T1 aOwolabi, Mayowa, O1 aHuffman, Jennifer, E1 aMilani, Lili1 aKamatani, Yoichiro1 aDichgans, Martin1 aDebette, Stephanie1 aCOMPASS Consortium1 aINVENT Consortium1 aDutch Parelsnoer Initiative (PSI) Cerebrovascular Disease Study Group1 aEstonian Biobank1 aPRECISEQ Consortium1 aFinnGen Consortium1 aNINDS Stroke Genetics Network (SiGN)1 aMEGASTROKE Consortium1 aSIREN Consortium1 aChina Kadoorie Biobank Collaborative Group1 aVA Million Veteran Program1 aInternational Stroke Genetics Consortium (ISGC)1 aBiobank Japan1 aCHARGE Consortium1 aGIGASTROKE Consortium uhttps://chs-nhlbi.org/node/9172