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Multi-ancestry genetic study of type 2 diabetes highlights the power of diverse populations for discovery and translation.

Anubha MahajanCassandra N SpracklenWeihua ZhangMaggie C Y NgLauren E PettyHidetoshi KitajimaGrace Z YuSina RuegerLeo SpeidelYoung Jin KimMomoko HorikoshiJosep Maria MercaderDaniel TaliunSanghoon MoonSoo-Heon KwakNeil R RobertsonNigel W RaynerMarie LohBong-Jo KimJoshua ChiouIrene Miguel-EscaladaPietro Della Briotta ParoloKuang LinFiona BraggMichael H PreussFumihiko TakeuchiJana NanoXiuqing GuoAmel LamriMasahiro NakatochiRobert A ScottJung-Jin LeeAlicia Huerta-ChagoyaMariaelisa GraffJin-Fang ChaiEsteban J ParraJie YaoLawrence F BielakYasuharu TabaraYang HaiValgerdur SteinthorsdottirJames P CookMart KalsNiels GrarupEllen M SchmidtIan PanTamar SoferMatthias WuttkeChloe SarnowskiChristian GiegerDarryl NousomeStella TrompetJirong LongMeng SunLin TongWei-Min ChenMeraj AhmadRaymond NoordamVictor J Y LimClaudia H T TamYoonjung Yoonie JooChien-Hsiun ChenLaura M RaffieldCécile LecoeurBram Peter PrinsAude NicolasLisa R YanekGuanjie ChenRichard A JensenSalman TajuddinEdmond K KabagambePing AnAnny H XiangHyeok Sun ChoiBrian E CadeJingyi TanJack FlanaganFernando AbaituaLinda S AdairAdebowale AdeyemoCarlos A Aguilar-SalinasMasato AkiyamaSonia S AnandAlain BertoniZheng BianJette Bork-JensenIvan BrandslundJennifer A BrodyChad M BrummettThomas A BuchananMickaël CanouilJuliana C N ChanLi-Ching ChangMiao-Li CheeJi ChenShyh-Huei ChenYuan-Tsong ChenZhengming ChenLee-Ming ChuangMary CushmanSwapan K DasH Janaka de SilvaGeorge DedoussisLatchezar DimitrovAyo P DoumateyShufa DuQing DuanKai-Uwe EckardtLeslie S EmeryDaniel S EvansMichele K EvansKrista FischerJames S FloydIan FordMyriam FornageOscar H FrancoTimothy M FraylingBarry I FreedmanChristian FuchsbergerPauline GenterHertzel C GersteinVilmantas GiedraitisClicerio González-VillalpandoMaria Elena González-VillalpandoMark O GoodarziPenny Gordon-LarsenDavid GorkinMyron GrossYu GuoSophie HackingerSohee HanAndrew T HattersleyChristian HerderAnnie-Green HowardWilla HsuehMengna HuangWei HuangYi-Jen HungMi Yeong HwangChii-Min HwuSahoko IchiharaMohammad Arfan IkramMartin IngelssonMd Tariqul IslamMasato IsonoHye-Mi JangFarzana JasmineGuozhi JiangJost B JonasMarit E JørgensenTorben JørgensenYoichiro KamataniFouad R KandeelAnuradhani KasturiratneTomohiro KatsuyaVarinderpal KaurTakahisa KawaguchiJacob M KeatonAbel N KhoChiea-Chuen KhorMuhammad G KibriyaDuk-Hwan KimKatsuhiko KoharaJennifer KriebelFlorian KronenbergJohanna KuusistoKristi LällLeslie A LangeMyung-Shik LeeNanette R LeeAaron LeongLiming LiYun LiRuifang Li-GaoSymen LigthartCecilia M LindgrenAllan LinnebergChing-Ti LiuJianjun LiuAdam E LockeTin LouieJian'an LuanAndrea O LukXi LuoJun LvValeriya LyssenkoVasiliki MamakouK Radha ManiThomas MeitingerAndres MetspaluAndrew D MorrisGirish N NadkarniJerry L NadlerMichael A NallsUma NayakSuraj S NongmaithemIoanna NtallaYukinori OkadaLorena OrozcoSanjay R PatelMark A PereiraAnnette PetersFraser J PirieBianca PornealaGauri PrasadSebastian PreisslLaura J Rasmussen-TorvikAlexander P ReinerMichael RodenRebecca RohdeKathryn RollCharumathi SabanayagamMaike SanderKevin SandowNaveed SattarSebastian SchönherrClaudia SchurmannMohammad ShahriarJinxiu ShiDong Mun ShinDaniel ShrinerJennifer A SmithWing Yee SoAlena StančákováAdrienne M StilpKonstantin StrauchKen SuzukiAtsushi TakahashiKent D TaylorBarbara ThorandGudmar ThorleifssonUnnur ThorsteinsdottirBrian TomlinsonJason M TorresFuu-Jen TsaiJaakko TuomilehtoTeresa Tusie-LunaMiriam S UdlerAdan Valladares-SalgadoRob M van DamJan B van KlinkenRohit VarmaMarijana VujkovicNiels Wacher-RodarteEleanor WheelerEric A WhitselAnanda R WickremasingheKo Willems van DijkDaniel R WitteChittaranjan S YajnikKen YamamotoToshimasa YamauchiLoïc YengoKyungheon YoonCanqing YuJian-Min YuanSalim YusufLiang ZhangWei Zhengnull nullnull nullLeslie J RaffelMichiya IgaseEli IppSusan RedlineYoon Shin ChoLars LindMichael A ProvinceCraig L HanisPatricia A PeyserErik IngelssonAlan B ZondermanBruce M PsatyYa-Xing WangCharles N RotimiDiane M BeckerFumihiko MatsudaYongmei LiuEleftheria ZegginiMitsuhiro YokotaStephen S RichCharles KooperbergJames S PankowJames C EngertYii-Der Ida ChenPhillippe FroguelJames G WilsonWayne H H SheuSharon L R KardiaJer-Yuarn WuM Geoffrey HayesRonald Ching-Wan MaTien-Yin WongLeif C GroopDennis O Mook-KanamoriGiriraj R ChandakFrancis S CollinsDwaipayan BharadwajGuillaume ParéMichèle M SaleHabibul AhsanAyesha A MotalaXiao-Ou ShuKyong-Soo ParkJ Wouter JukemaMiguel CruzRoberta McKean-CowdinHarald GrallertChing-Yu ChengErwin P BottingerAbbas DehghanE-Shyong TaiJosée DupuisNorihiro KatoMarkku LaaksoAnna KöttgenWoon-Puay KohColin N A PalmerSimin LiuGoncalo AbecasisJaspal S KoonerRuth J F LoosKari E NorthChristopher A HaimanJose C FlorezDanish SaleheenTorben HansenOluf PedersenReedik MägiClaudia LangenbergNicholas J WarehamShiro MaedaTakashi KadowakiJuyoung LeeIona Y MillwoodRobin G WaltersKari StefanssonSimon R MyersJorge FerrerKyle J GaultonJames B MeigsKaren L MohlkeAnna L GloynDonald W BowdenJennifer E BelowJohn C ChambersXueling SimMichael BoehnkeJerome I RotterMark I McCarthyAndrew P Morris
Published in: Nature genetics (2022)
We assembled an ancestrally diverse collection of genome-wide association studies (GWAS) of type 2 diabetes (T2D) in 180,834 affected individuals and 1,159,055 controls (48.9% non-European descent) through the Diabetes Meta-Analysis of Trans-Ethnic association studies (DIAMANTE) Consortium. Multi-ancestry GWAS meta-analysis identified 237 loci attaining stringent genome-wide significance (P < 5 × 10 -9 ), which were delineated to 338 distinct association signals. Fine-mapping of these signals was enhanced by the increased sample size and expanded population diversity of the multi-ancestry meta-analysis, which localized 54.4% of T2D associations to a single variant with >50% posterior probability. This improved fine-mapping enabled systematic assessment of candidate causal genes and molecular mechanisms through which T2D associations are mediated, laying the foundations for functional investigations. Multi-ancestry genetic risk scores enhanced transferability of T2D prediction across diverse populations. Our study provides a step toward more effective clinical translation of T2D GWAS to improve global health for all, irrespective of genetic background.
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