Maternal and fetal genetic effects on birth weight and their relevance to cardio-metabolic risk factors.

Nicole M Warrington Robin N BeaumontMomoko HorikoshiFelix R Day Øyvind Helgeland Charles Laurin Jonas BacelisShouneng PengKe HaoBjarke FeenstraAndrew R WoodAnubha MahajanJessica TyrrellNeil R RobertsonN William RaynerZhen QiaoGunn-Helen MoenMarc VaudelCarmen J MarsitJia ChenMichael NodzenskiTheresia M SchnurrMohammad H ZafarmandJonathan P BradfieldNiels GrarupMarjolein N KooijmanRuifang Li-GaoFrank GellerTarunveer S AhluwaliaLavinia Paternoster Rico RueediVille HuikariJouke-Jan HottengaLeo-Pekka LyytikainenAlana CavadinoSarah Jane MetrustryDiana L CousminerYing WuElisabeth ThieringCarol A WangChristian T HaveNatalia Vilor-TejedorPeter K JoshiJodie N PainterIoanna NtallaRonny MyhreNiina PitkänenElisabeth M van LeeuwenRaimo JoroVasiliki LagouRebecca C RichmondAna EspinosaSheila J BartonHazel M Inskip John W HollowayLoreto Santa-MarinaXavier EstivilWei AngJulie A MarshChristoph ReichetzederLetizia MarulloBerthold Hocher Kathryn L LunettaJoanne M MurabitoCaroline L ReltonManolis KogevinasLeda ChatziCatherine AllardLuigi BouchardMarie-France HivertGe ZhangLouis J MugliaJani Heikkinennull nullCamilla S MorgenAntoine H C van Kampen Barbera D C van SchaikFrank D MentchClaudia LangenbergJian'an LuanRobert A ScottJing Hua ZhaoGibran HemaniSusan M RingAmanda J BennettKyle J GaultonJuan Fernandez-TajesNatalie R van ZuydamCarolina Medina-GomezHugoline G de HaanFrits R RosendaalZoltán Kutalik Pedro-Manuel Marques-VidalShikta DasGonneke WillemsenHamdi Mbarek Martina Müller-NuraysidMarie StandlEmil Vincent R Appel Cilius Esmann FonvigCaecilie TrierCatharina E M van BeijsterveldtMario MurciaMariona BustamanteSílvia Bonas-GuarchDavid Michael Hougaard Josep Maria Mercader Allan LinnebergKatharina E SchrautPenelope A Lind Sarah E MedlandBeverley M ShieldsBridget A KnightJin-Fang ChaiKalliope PanoutsopoulouMeike BartelsFriman SánchezJessica Lasky-SuDavid TorrentsRebecca K VindingSara M WillemsMustafa AtalayBo Lund Chawes Peter Kovacs Inga Prokopenko Marcus A TukeHanieh YaghootkarKatherine S Ruth Samuel E JonesPo-Ru LohAnna MurrayMichael N WeedonAnke TönjesMichael StumvollKim F MichaelsenAino-Maija ElorantaTimo A LakkaCornelia M van DuijnWieland KiessAntje KörnerHarri NiinikoskiKatja PahkalaOlli T RaitakariBo JacobssonEleftheria ZegginiGeorge V DedoussisYik-Ying TeoSeang-Mei SawGrant W MontgomeryHarry CampbellJames F Wilson Tanja G M VrijkotteMartine VrijheidEco J C N de GeusM Geoffrey HayesHaja N KadarmideenJens-Christian HolmLawrence J BeilinCraig E PennellJoachim HeinrichLinda S AdairJudith B BorjaKaren L MohlkeJohan G ErikssonElisabeth E WidénAndrew T HattersleyTim D SpectorMika KähönenJorma S ViikariTerho LehtimäkiDorret I BoomsmaSylvain SebertPeter VollenweiderThorkild I A Sørensen Hans Bisgaard Klaus BønnelykkeJeffrey C MurrayMads MelbyeEllen A NohrDennis O Mook-KanamoriFernando RivadeneiraAlbert HofmanJanine F Felix Vincent W V Jaddoe Torben HansenCharlotta PisingerAllan A VaagOluf PedersenAndré G UitterlindenMarjo-Riitta JärvelinChristine PowerElina HyppӧnenDenise M ScholtensWilliam L LoweGeorge Davey SmithNicholas J TimpsonAndrew P MorrisNicholas J WarehamHakon H Hakonarson Struan F A GrantTimothy M FraylingDeborah A Lawlor Pal Rasmus NjolstadStefan JohanssonKen K Ong Mark I McCarthyJohn R B PerryDavid M Evans Rachel M Freathy

Published in: Nature genetics (2019)

Birth weight variation is influenced by fetal and maternal genetic and non-genetic factors, and has been reproducibly associated with future cardio-metabolic health outcomes. In expanded genome-wide association analyses of own birth weight (n = 321,223) and offspring birth weight (n = 230,069 mothers), we identified 190 independent association signals (129 of which are novel). We used structural equation modeling to decompose the contributions of direct fetal and indirect maternal genetic effects, then applied Mendelian randomization to illuminate causal pathways. For example, both indirect maternal and direct fetal genetic effects drive the observational relationship between lower birth weight and higher later blood pressure: maternal blood pressure-raising alleles reduce offspring birth weight, but only direct fetal effects of these alleles, once inherited, increase later offspring blood pressure. Using maternal birth weight-lowering genotypes to proxy for an adverse intrauterine environment provided no evidence that it causally raises offspring blood pressure, indicating that the inverse birth weight-blood pressure association is attributable to genetic effects, and not to intrauterine programming.