Genetic drivers of heterogeneity in type 2 diabetes pathophysiology.
Ken SuzukiKonstantinos HatzikotoulasLorraine SouthamHenry J TaylorXianyong YinKimberly LorenzRavi MandlaAlicia Huerta-ChagoyaGiorgio E M MelloniStavroula KanoniNigel W RaynerOzvan BocherAna Luiza ArrudaKyuto SoneharaShinichi NambaSimon S K LeeMichael H PreussLauren E PettyPhilip SchroederBrett VanderwerffMart KalsFiona BraggKuang LinXiuqing GuoWeihua ZhangJie YaoYoung Jin KimMariaelisa GraffFumihiko TakeuchiJana NanoAmel LamriMasahiro NakatochiSanghoon MoonRobert A ScottJames P CookJung-Jin LeeIan PanDaniel TaliunEsteban J ParraJin-Fang ChaiLawrence F BielakYasuharu TabaraYang HaiGudmar ThorleifssonNiels GrarupTamar SoferMatthias WuttkeChloé SarnowskiChristian GiegerDarryl NousomeStella TrompetSoo-Heon KwakJirong LongMeng SunLin TongWei-Min ChenSuraj S NongmaithemRaymond NoordamVictor J Y LimClaudia H T TamYoonjung Yoonie JooChien-Hsiun ChenLaura M RaffieldBram Peter PrinsAude NicolasLisa R YanekGuanjie ChenJennifer A BrodyEdmond KabagambePing AnAnny H XiangHyeok Sun ChoiBrian E CadeJingyi TanK Alaine BroadawayAlice WilliamsonZoha KamaliJinrui CuiManonanthini ThangamLinda S AdairAdebowale AdeyemoCarlos A Aguilar-SalinasTarunveer S AhluwaliaSonia S AnandAlain BertoniJette Bork-JensenIvan BrandslundThomas A BuchananCharles F BurantAdam S ButterworthMickaël CanouilJuliana C N ChanLi-Ching ChangMiao-Li CheeJi ChenShyh-Huei ChenYuan-Tsong ChenZhengming ChenLee-Ming ChuangMary CushmanJohn DaneshSwapan K DasH Janaka de SilvaGeorge DedoussisLatchezar DimitrovAyo P DoumateyShufa DuQing DuanKai-Uwe EckardtLeslie S EmeryDaniel S EvansMichele K EvansKrista FischerJames S FloydIan FordOscar H FrancoTimothy M FraylingBarry I FreedmanPauline GenterHertzel C GersteinVilmantas GiedraitisClicerio González-VillalpandoMaria Elena González-VillalpandoPenny Gordon-LarsenMyron GrossLindsay A GuareSophie HackingerLiisa HakasteSohee HanAndrew T HattersleyChristian HerderMomoko HorikoshiAnnie-Green HowardWilla HsuehMengna HuangWei HuangYi-Jen HungMi Yeong HwangChii-Min HwuSahoko IchiharaMohammad Arfan IkramMartin IngelssonMd Tariqul IslamMasato IsonoHye-Mi JangFarzana JasmineGuozhi JiangJost B JonasTorben JørgensenFrederick K KamanuFouad R KandeelAnuradhani KasturiratneTomohiro KatsuyaVarinderpal KaurTakahisa KawaguchiJacob M KeatonAbel N KhoChiea-Chuen KhorMuhammad G KibriyaDuk-Hwan KimFlorian KronenbergJohanna KuusistoKristi LällLeslie A LangeKyung Min LeeMyung-Shik LeeNanette R LeeAaron LeongLiming LiYun LiRuifang Li-GaoSymen LigthartCecilia M LindgrenAllan LinnebergChing-Ti LiuJianjun LiuAdam E LockeTin LouieJian'an LuanAndrea O LukXi LuoJun LvJulie A LynchValeriya LyssenkoShiro MaedaVasiliki MamakouSohail Rafik MansuriKoichi MatsudaThomas MeitingerOlle MelanderAndres MetspaluHuan MoAndrew D MorrisFilipe A MouraJerry L NadlerMichael A NallsUma NayakIoanna NtallaYukinori OkadaLorena OrozcoSanjay R PatelSnehal PatilPei PeiMark A PereiraAnnette PetersFraser J PirieHannah G PolikowskyBianca PornealaGauri PrasadLaura J Rasmussen-TorvikAlexander P ReinerMichael RodenRebecca RohdeKatheryn RollCharumathi SabanayagamKevin SandowAlagu SankareswaranNaveed SattarSebastian SchönherrMohammad ShahriarBotong ShenJinxiu ShiDong Mun ShinNobuhiro ShojimaJennifer A SmithWing Yee SoAlena StančákováValgerdur SteinthorsdottirAdrienne M StilpKonstantin StrauchKent D TaylorBarbara ThorandUnnur ThorsteinsdottirBrian TomlinsonTam C TranFuu-Jen TsaiJaakko TuomilehtoTeresa Tusie-LunaMiriam S UdlerAdan Valladares-SalgadoRob M van DamJan B van KlinkenRohit VarmaNiels Wacher-RodarteEleanor WheelerAnanda R WickremasingheKo Willems van DijkDaniel R WitteChittaranjan S YajnikKen YamamotoKenichi YamamotoKyungheon YoonCanqing YuJian-Min YuanSalim YusufMatthew ZawistowskiLiang ZhangWei Zhengnull nullLeslie J RaffelMichiya IgaseEli IppSusan RedlineYoon Shin ChoLars LindMichael A ProvinceMyriam FornageCraig L HanisErik IngelssonAlan B ZondermanBruce M PsatyYa-Xing WangCharles N RotimiDiane M BeckerFumihiko MatsudaYongmei LiuMitsuhiro YokotaSharon L R KardiaPatricia A PeyserJames S PankowJames C EngertAmélie BonnefondPhilippe FroguelJames G WilsonWayne H H SheuJer-Yuarn WuM Geoffrey HayesRonald C W MaTien-Yin WongDennis O Mook-KanamoriTiinamaija TuomiGiriraj R ChandakFrancis S CollinsDwaipayan BharadwajGuillaume ParéMichèle M SaleHabibul AhsanAyesha A MotalaXiao-Ou ShuKyong-Soo ParkJ Wouter JukemaMiguel CruzYii-Der Ida ChenStephen S RichRoberta McKean-CowdinHarald GrallertChing-Yu ChengMohsen GhanbariE-Shyong TaiJosee DupuisNorihiro KatoMarkku LaaksoAnna KöttgenWoon-Puay KohDonald W BowdenColin N A PalmerJaspal S KoonerCharles KooperbergSimin LiuKari E NorthDanish SaleheenTorben HansenOluf PedersenNicholas J WarehamJuyoung LeeBong-Jo KimIona Y MillwoodRobin G WaltersKari StefanssonEmma AhlqvistMark O GoodarziKaren L MohlkeClaudia LangenbergChristopher A HaimanRuth J F LoosJose C FlorezDaniel J RaderMarylyn D RitchieSebastian ZöllnerReedik MägiNicholas A MarstonChristian T RuffDavid A van HeelSarah FinerJoshua C DennyToshimasa YamauchiTakashi KadowakiJohn C ChambersMaggie C Y NgXueling SimJennifer E BelowPhilip S TsaoKyong-Mi ChangMark I McCarthyJames B MeigsAnubha MahajanCassandra N SpracklenJosep Maria MercaderMichael BoehnkeJerome I RotterMarijana VujkovicBenjamin F VoightAndrew P MorrisEleftheria ZegginiPublished in: Nature (2024)
Type 2 diabetes (T2D) is a heterogeneous disease that develops through diverse pathophysiological processes 1,2 and molecular mechanisms that are often specific to cell type 3,4 . Here, to characterize the genetic contribution to these processes across ancestry groups, we aggregate genome-wide association study data from 2,535,601 individuals (39.7% not of European ancestry), including 428,452 cases of T2D. We identify 1,289 independent association signals at genome-wide significance (P < 5 × 10 -8 ) that map to 611 loci, of which 145 loci are, to our knowledge, previously unreported. We define eight non-overlapping clusters of T2D signals that are characterized by distinct profiles of cardiometabolic trait associations. These clusters are differentially enriched for cell-type-specific regions of open chromatin, including pancreatic islets, adipocytes, endothelial cells and enteroendocrine cells. We build cluster-specific partitioned polygenic scores 5 in a further 279,552 individuals of diverse ancestry, including 30,288 cases of T2D, and test their association with T2D-related vascular outcomes. Cluster-specific partitioned polygenic scores are associated with coronary artery disease, peripheral artery disease and end-stage diabetic nephropathy across ancestry groups, highlighting the importance of obesity-related processes in the development of vascular outcomes. Our findings show the value of integrating multi-ancestry genome-wide association study data with single-cell epigenomics to disentangle the aetiological heterogeneity that drives the development and progression of T2D. This might offer a route to optimize global access to genetically informed diabetes care.
Keyphrases
- genome wide association study
- genome wide
- type diabetes
- single cell
- dna methylation
- coronary artery disease
- diabetic nephropathy
- insulin resistance
- endothelial cells
- glycemic control
- peripheral artery disease
- healthcare
- metabolic syndrome
- copy number
- dna damage
- weight loss
- induced apoptosis
- cardiovascular disease
- gene expression
- big data
- electronic health record
- left ventricular
- heart failure
- minimally invasive
- adipose tissue
- transcription factor
- physical activity
- machine learning
- acute coronary syndrome
- cell death
- endoplasmic reticulum stress
- atrial fibrillation
- high density