PLoS ONE (Jan 2016)

Heritable DNA Methylation in CD4+ Cells among Complex Families Displays Genetic and Non-Genetic Effects.

  • Kenneth Day,
  • Lindsay L Waite,
  • Arnald Alonso,
  • Marguerite R Irvin,
  • Degui Zhi,
  • Krista S Thibeault,
  • Stella Aslibekyan,
  • Bertha Hidalgo,
  • Ingrid B Borecki,
  • Jose M Ordovas,
  • Donna K Arnett,
  • Hemant K Tiwari,
  • Devin M Absher

DOI
https://doi.org/10.1371/journal.pone.0165488
Journal volume & issue
Vol. 11, no. 10
p. e0165488

Abstract

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DNA methylation at CpG sites is both heritable and influenced by environment, but the relative contributions of each to DNA methylation levels are unclear. We conducted a heritability analysis of CpG methylation in human CD4+ cells across 975 individuals from 163 families in the Genetics of Lipid-lowering Drugs and Diet Network (GOLDN). Based on a broad-sense heritability (H2) value threshold of 0.4, we identified 20,575 highly heritable CpGs among the 174,445 most variable autosomal CpGs (SD > 0.02). Tests for associations of heritable CpGs with genotype at 2,145,360 SNPs using 717 of 975 individuals showed that ~74% were cis-meQTLs (1 Mb away from the CpG or located on a different chromosome), and 20% of CpGs showed no strong significant associations with genotype (based on a p-value threshold of 1e-7). Genes proximal to the genotype independent heritable CpGs were enriched for functional terms related to regulation of T cell activation. These CpGs were also among those that distinguished T cells from other blood cell lineages. Compared to genes proximal to meQTL-associated heritable CpGs, genotype independent heritable CpGs were moderately enriched in the same genomic regions that escape erasure during primordial germ cell development and could carry potential for generational transmission.