Understanding the genetic complexity of puberty timing across the allele frequency spectrum.
Katherine A KentistouLena R KaisingerStasa StankovicMarc VaudelEdson Mendes de OliveiraAndrea MessinaRobin G WaltersXiaoxi LiuAlexander S BuschHannes HelgasonDeborah J ThompsonFederico A SantoniKonstantin M PetricekYassine ZouaghiIsabel Huang-DoranDaníel F GuðbjartssonEirik BratlandKuang LinEugene J GardnerYajie ZhaoRaina Y JiaChikashi C TeraoMarjorie J RigganManjeet K BollaMojgan YazdanpanahNahid YazdanpanahJonathan P BradfieldLinda BroerArchie I CampbellDaniel I ChasmanDiana L CousminerNora FranceschiniLude H FrankeGiorgia GirottoChunyan HeMarjo-Riitta JarvelinPeter K JoshiYoichiro KamataniRobert KarlssonJian'an LuanKathryn L LunettaReedik MägiMassimo ManginoSarah E MedlandChrista MeisingerRaymond NoordamTeresa NutileMaria Pina ConcasOzren PolašekEleonora PorcuSusan M RingCinzia Felicita SalaAlbert Vernon SmithToshiko TanakaPeter J van der MostVeronique VitartCarol A WangGonneke WillemsenMarek ZygmuntThomas U AhearnIrene L AndrulisHoda Anton-CulverAntonis C AntoniouPaul L AuerCatriona L K BarnesMatthias W BeckmannAmy Berrington de GonzalezNatalia V BogdanovaStig Egil BojesenHermann BrennerJulie E BuringFederico CanzianJenny Chang-ClaudeFergus J CouchAngela CoxLaura CrisponiKamila CzeneMary B DalyEllen W DemerathJoe G DennisPeter DevileeImmaculata De VivoThilo DörkAlison M DunningMiriam V DwekJohan G ErikssonPeter Andreas FaschingLindsay Fernández-RhodesLiana FerreliOlivia FletcherManuela Gago-DominguezMontserrat Garcia-ClosasJosé Angel García-SaenzAnna González-NeiraHarald GrallertPascal GuénelChristopher A HaimanPer HallUte HamannHakon H HakonarsonRoger J HartMartha HickeyMaartje J HooningReiner HoppeJohn L HopperJouke- Jan HottengaFrank B HuHanna HuebnerDavid J Hunternull nullHelena JernströmEsther M JohnDavid KarasikElza K KhusnutdinovaVessela N KristensenJames V LaceyDiether LambrechtsLenore J LaunerPenelope A LindAnnika LindblomPatrik K E MagnussonArto MannermaaMark I McCarthyThomas MeitingerCristina MenniKyriaki MichailidouIona Y MillwoodJonathan BeesleyGrant W MontgomeryHeli NevanlinnaIlja Maria NolteDale R NyholtNadia ObiKatie M O'BrienKenneth OffitAlbertine J OldehinkelSisse Rye OstrowskiAarno PalotieOle Birger Vesterager PedersenAnnette PetersGiulia PianigianiDijana Plaseska-KaranfilskaAnneli PoutaAlfred PozarickijPaolo RadiceGadi RennertFrits Richard RosendaalDaniela RuggieroEmmanouil SaloustrosDale R SandlerSabine SchipfCarsten Oliver SchmidtMarjanka K SchmidtKerrin S SmallBeatrice SpedicatiMeir StampferJennifer StoneRulla M TamimiLauren R TerasEmmi TikkanenConstance TurmanCeline M VachonQin WangRobert WinqvistAlicja WolkBabette S ZemelWei ZhengKo Willems van DijkBehrooz Z AlizadehStefania BandinelliEric BoerwinkleDorret I BoomsmaMarina CiulloGeorgia Chenevix-TrenchFrancesco CuccaTõnu EskoChristian GiegerStruan F A GrantVilmundur G GudnasonCaroline HaywardIvana KolčićPeter KraftDeborah A LawlorNicholas G MartinEllen A NøhrNancy L PedersenCraig E PennellPaul M RidkerAntonietta RobinoHarold SniederUlla SovioTimothy D SpectorDoris StöcklCathie SudlowNicholas John TimpsonDaniela TonioloAndre G UitterlindenSheila UliviHenry VölzkeNicholas J WarehamElisabeth WidenJames F Wilsonnull nullnull nullnull nullnull nullnull nullnull nullPaul David Peter PharoahLiming LiDouglas F EastonPal Rasmus NjolstadPatrick SulemJoanne M MurabitoAnna MurrayDespoina ManousakiAnders JuulChristian ErikstrupKári StefánssonMomoko HorikoshiZhengming ChenI Sadaf FarooqiNelly PitteloudStefan E JohanssonFelix R DayJohn R B PerryKen K OngPublished in: Nature genetics (2024)
Pubertal timing varies considerably and is associated with later health outcomes. We performed multi-ancestry genetic analyses on ~800,000 women, identifying 1,080 signals for age at menarche. Collectively, these explained 11% of trait variance in an independent sample. Women at the top and bottom 1% of polygenic risk exhibited ~11 and ~14-fold higher risks of delayed and precocious puberty, respectively. We identified several genes harboring rare loss-of-function variants in ~200,000 women, including variants in ZNF483, which abolished the impact of polygenic risk. Variant-to-gene mapping approaches and mouse gonadotropin-releasing hormone neuron RNA sequencing implicated 665 genes, including an uncharacterized G-protein-coupled receptor, GPR83, which amplified the signaling of MC3R, a key nutritional sensor. Shared signals with menopause timing at genes involved in DNA damage response suggest that the ovarian reserve might signal centrally to trigger puberty. We also highlight body size-dependent and independent mechanisms that potentially link reproductive timing to later life disease.
Keyphrases
- genome wide
- copy number
- polycystic ovary syndrome
- dna damage response
- pregnancy outcomes
- dna methylation
- breast cancer risk
- genome wide identification
- cervical cancer screening
- type diabetes
- single cell
- pregnant women
- metabolic syndrome
- dna repair
- postmenopausal women
- oxidative stress
- bioinformatics analysis
- dna damage
- fatty acid