PLoS Genetics (Nov 2021)

Cascading epigenomic analysis for identifying disease genes from the regulatory landscape of GWAS variants.

  • Bernard Ng,
  • William Casazza,
  • Nam Hee Kim,
  • Chendi Wang,
  • Farnush Farhadi,
  • Shinya Tasaki,
  • David A Bennett,
  • Philip L De Jager,
  • Christopher Gaiteri,
  • Sara Mostafavi

DOI
https://doi.org/10.1371/journal.pgen.1009918
Journal volume & issue
Vol. 17, no. 11
p. e1009918

Abstract

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The majority of genetic variants detected in genome wide association studies (GWAS) exert their effects on phenotypes through gene regulation. Motivated by this observation, we propose a multi-omic integration method that models the cascading effects of genetic variants from epigenome to transcriptome and eventually to the phenome in identifying target genes influenced by risk alleles. This cascading epigenomic analysis for GWAS, which we refer to as CEWAS, comprises two types of models: one for linking cis genetic effects to epigenomic variation and another for linking cis epigenomic variation to gene expression. Applying these models in cascade to GWAS summary statistics generates gene level statistics that reflect genetically-driven epigenomic effects. We show on sixteen brain-related GWAS that CEWAS provides higher gene detection rate than related methods, and finds disease relevant genes and gene sets that point toward less explored biological processes. CEWAS thus presents a novel means for exploring the regulatory landscape of GWAS variants in uncovering disease mechanisms.