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Genome-wide sequencing-based identification of methylation quantitative trait loci and their role in schizophrenia risk

Author

Listed:
  • Kira A. Perzel Mandell

    (Johns Hopkins Medical Campus
    Johns Hopkins University School of Medicine (JHSOM))

  • Nicholas J. Eagles

    (Johns Hopkins Medical Campus)

  • Richard Wilton

    (Johns Hopkins University)

  • Amanda J. Price

    (Johns Hopkins Medical Campus
    Johns Hopkins University School of Medicine (JHSOM))

  • Stephen A. Semick

    (Johns Hopkins Medical Campus)

  • Leonardo Collado-Torres

    (Johns Hopkins Medical Campus)

  • William S. Ulrich

    (Johns Hopkins Medical Campus)

  • Ran Tao

    (Johns Hopkins Medical Campus)

  • Shizhong Han

    (Johns Hopkins Medical Campus
    JHSOM)

  • Alexander S. Szalay

    (Johns Hopkins University
    JHSOM)

  • Thomas M. Hyde

    (Johns Hopkins Medical Campus
    JHSOM
    JHSOM)

  • Joel E. Kleinman

    (Johns Hopkins Medical Campus
    JHSOM)

  • Daniel R. Weinberger

    (Johns Hopkins Medical Campus
    Johns Hopkins University School of Medicine (JHSOM)
    JHSOM
    JHSOM)

  • Andrew E. Jaffe

    (Johns Hopkins Medical Campus
    Johns Hopkins University School of Medicine (JHSOM)
    JHSOM
    JHSOM)

Abstract

DNA methylation (DNAm) is an epigenetic regulator of gene expression and a hallmark of gene-environment interaction. Using whole-genome bisulfite sequencing, we have surveyed DNAm in 344 samples of human postmortem brain tissue from neurotypical subjects and individuals with schizophrenia. We identify genetic influence on local methylation levels throughout the genome, both at CpG sites and CpH sites, with 86% of SNPs and 55% of CpGs being part of methylation quantitative trait loci (meQTLs). These associations can further be clustered into regions that are differentially methylated by a given SNP, highlighting the genes and regions with which these loci are epigenetically associated. These findings can be used to better characterize schizophrenia GWAS-identified variants as epigenetic risk variants. Regions differentially methylated by schizophrenia risk-SNPs explain much of the heritability associated with risk loci, despite covering only a fraction of the genomic space. We provide a comprehensive, single base resolution view of association between genetic variation and genomic methylation, and implicate schizophrenia GWAS-associated variants as influencing the epigenetic plasticity of the brain.

Suggested Citation

  • Kira A. Perzel Mandell & Nicholas J. Eagles & Richard Wilton & Amanda J. Price & Stephen A. Semick & Leonardo Collado-Torres & William S. Ulrich & Ran Tao & Shizhong Han & Alexander S. Szalay & Thomas, 2021. "Genome-wide sequencing-based identification of methylation quantitative trait loci and their role in schizophrenia risk," Nature Communications, Nature, vol. 12(1), pages 1-12, December.
  • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-25517-3
    DOI: 10.1038/s41467-021-25517-3
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