A methylome-wide association study of major depression with out-of-sample case-control classification and trans-ancestry comparison

Xueyi Shen(University of Edinburgh), Miruna C. Barbu(University of Edinburgh), Doretta Caramaschi(University of Exeter), Ryan Arathimos(King's College London), Darina Czamara(Max Planck Institute of Psychiatry), Friederike S. David(University Hospital Bonn), Anna Dearman(University of Essex), Evelyn Dilkes(University of Essex), Marisol Herrera-Rivero(University of Münster), Floris Huider(Public Health Institute), Annemarie Luise Kühn(Universitätsmedizin Greifswald), Kuan-Chen Lu(National Taiwan University), Teemu Palviainen(University of Helsinki), Alicia Marie Schowe(Max Planck Institute of Psychiatry), Gemma Shireby(University of Exeter), Antoine Weihs(Universitätsmedizin Greifswald), Chloe C. Y. Wong(King's College London), Eleanor Davyson(University of Edinburgh), H. W. Casey(University of Edinburgh), Mark J. Adams(University of Edinburgh), Antje‐Kathrin Allgaier, M. Barber(Institute of Genetics and Cancer), Joe Burrage(University of Exeter), Avshalom Caspi(Duke University), Ricardo Costeira(King's College London), Erin C. Dunn(Harvard University), Lisa Feldmann(Ludwig-Maximilians-Universität München), Josef Frank(Heidelberg University), Franz Joseph Freisleder, Danni A. Gadd(Edinburgh Cancer Research), Ellen Greimel(Ludwig-Maximilians-Universität München), Eilís Hannon(University of Exeter), Sarah E. Harris(NHS Lothian), Georg Homuth, David M. Howard(King's College London), Stella Iurato(Roche (United States)), Tellervo Korhonen(University of Helsinki), Tzu‐Pin Lu(National Taiwan University), Nicholas G. Martin, Jade Martins(Capgemini (United States)), Edel McDermott(St. Vincent's University Hospital), Susanne Meinert, Pau Navarro(Roslin Institute), Miina Ollikainen(University of Helsinki), Verena Pehl(Ludwig-Maximilians-Universität München), Charlotte Piechaczek(Ludwig-Maximilians-Universität München), Aline D. Scherff(Ludwig-Maximilians-Universität München), Frederike Stein(Phillips University), Fabian Streit(Heidelberg University), Alexander Teumer(Universitätsmedizin Greifswald), Henry Völzke(German Centre for Cardiovascular Research), Jenny van Dongen(Public Health Institute), Rosie M. Walker(University of Exeter), Natan Yusupov(Max Planck Institute of Psychiatry), Louise Arseneault(King's College London), Jordana T. Bell(King's College London), Klaus Berger, Elisabeth B. Binder(Max Planck Institute of Psychiatry), Dorret I. Boomsma(Public Health Institute), Simon R. Cox(NHS Lothian), Udo Dannlowski, Kathryn L. Evans(University of Edinburgh), Helen L. Fisher(King's College London), Andreas J. Forstner(Forschungszentrum Jülich), Hans J. Grabe(Universitätsmedizin Greifswald), Jaakko Kaprio(University of Helsinki), Tilo Kircher(Phillips University), Johannes Kopf‐Beck(Max Planck Institute of Psychiatry), Meena Kumari(University of Essex), Po‐Hsiu Kuo(National Taiwan University), Qingqin S. Li(Janssen (United States)), Terrie E. Moffitt(Duke University), Hugh Mulcahy(University College Dublin), Therese M. Murphy(Technological University Dublin), Gerd Schulte‐Körne(Ludwig-Maximilians-Universität München), Jonathan Mill(University of Exeter), Cathryn M. Lewis(King's College London), BeCOME Working Group(Max Planck Institute of Psychiatry), OPTIMA Working Group(The University of Queensland), PGC MDD Working Group(University of Edinburgh), Naomi R. Wray(The University of Queensland), Andrew M. McIntosh(University of Edinburgh)
medRxiv
October 28, 2023
10.1101/2023.10.27.23297630
Cited by 5Open Access
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Abstract

Abstract Major Depression (MD) is a leading cause of global disease burden, and both experimental and population-based studies suggest that differences in DNA methylation (DNAm) may be associated with the condition. However, previous DNAm studies have not so far been widely replicated, suggesting a need for larger meta-analysis studies. In the present study, the Psychiatric Genomics Consortium Major Depressive Disorder working group conducted a meta-analysis of methylome-wide association analysis (MWAS) for life-time MD across 18 studies of 24,754 European-ancestry participants (5,443 MD cases) and an East Asian sample (243 cases, 1846 controls). We identified fifteen CpG sites associated with lifetime MD with methylome-wide significance (p < 6.42×10 - 8 ). Top CpG effect sizes in European ancestries were positively correlated with those from an independent East Asian MWAS (r = 0.482 and p = 0.068 for significant CpG sites, r = 0.261 and p = 0.009 for the top 100 CpG sites). Methylation score (MS) created using the MWAS summary statistics was significantly associated with MD status in an out-of-sample classification analysis (β = 0.122, p = 0.005, AUC = 0.53). MS was also associated with five inflammatory markers, with the strongest association found with Tumor Necrosis Factor Beta (β=-0.154, p=1.5×10 - 5 ). Mendelian randomisation (MR) analysis demonstrated that 23 CpG sites were potentially causally associated with MD and six of those were replicated in an independent mQTL dataset (Wald’s ratio test, absolute β ranged from 0.056 to 0.932, p ranged from 7×10 - 3 to 4.58×10 - 6 ). CpG sites located in the Major Histocompatibility complex (MHC) region showed the strongest evidence from MR analysis of being associated with MD. Our study provides evidence that variations in DNA methylation are associated with MD, and further evidence supporting involvement of the immune system. Larger sample sizes in diverse ancestries are likely to reveal replicable associations to improve mechanistic inferences with the potential to inform molecular target identification.

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