DNA methylation in lung cells is associated with asthma endotypes and genetic risk
Jessie Nicodemus-Johnson, Rachel A. Myers, Noburu J. Sakabe, Debora R. Sobreira, Douglas K. Hogarth, Edward T. Naureckas, Anne I. Sperling, Julian Solway, Steven R. White, Marcelo A. Nobrega, Dan L. Nicolae, Yoav Gilad, Carole Ober
Jessie Nicodemus-Johnson, Rachel A. Myers, Noburu J. Sakabe, Debora R. Sobreira, Douglas K. Hogarth, Edward T. Naureckas, Anne I. Sperling, Julian Solway, Steven R. White, Marcelo A. Nobrega, Dan L. Nicolae, Yoav Gilad, Carole Ober
View: Text | PDF
Research Article Genetics Pulmonology

DNA methylation in lung cells is associated with asthma endotypes and genetic risk

Abstract

The epigenome provides a substrate through which environmental exposures can exert their effects on gene expression and disease risk, but the relative importance of epigenetic variation on human disease onset and progression is poorly characterized. Asthma is a heterogeneous disease of the airways, for which both onset and clinical course result from interactions between host genotype and environmental exposures, yet little is known about the molecular mechanisms for these interactions. We assessed genome-wide DNA methylation using the Infinium Human Methylation 450K Bead Chip and characterized the transcriptome by RNA sequencing in primary airway epithelial cells from 74 asthmatic and 41 nonasthmatic adults. Asthma status was based on doctor’s diagnosis and current medication use. Genotyping was performed using various Illumina platforms. Our study revealed a regulatory locus on chromosome 17q12-21 associated with asthma risk and epigenetic signatures of specific asthma endotypes and molecular networks. Overall, these data support a central role for DNA methylation in lung cells, which promotes distinct molecular pathways of asthma pathogenesis and modulates the effects of genetic variation on disease risk and clinical heterogeneity.

Authors

Jessie Nicodemus-Johnson, Rachel A. Myers, Noburu J. Sakabe, Debora R. Sobreira, Douglas K. Hogarth, Edward T. Naureckas, Anne I. Sperling, Julian Solway, Steven R. White, Marcelo A. Nobrega, Dan L. Nicolae, Yoav Gilad, Carole Ober

×

Figure 4

A 17q locus is within a putative enhancer.

Options: View larger image (or click on image) Download as PowerPoint
A 17q locus is within a putative enhancer. (A) Locus zoom plot of meQTL ...
(A) Locus zoom plot of meQTL results for the 17q12-21 region. Only SNPs included in the meQTL study (those within 5 kb pairs of a CpG) are shown. The meQTL P values are shown on the left y axis for each CpG-SNP pair; only the smallest meQTL P value is shown when there is more than one SNP within 5 kb of a CpG site. LD (r2) is shown between the most significant meQTL (rs2517955) and all other SNPs. Note that rs2517955 shows little LD (r2 = 0.27 based on 1,000 genomes CEU) with rs12936231, a SNP at the established 17q21 locus, which spans from ZPBP2 to ORMDL3. (B) ENCODE H3K27ac histone marks align to the region flanking rs2517955. The vertical red line shows the position of rs2517955. (C) Results of in situ Hi-C studies. Interaction between the putative distal enhancer locus (red bar) and a region including the ORMDL3 promoter (blue bar) is shown by an arrow. Gray bars show additional sites of interaction with the enhancer locus. The vertical red line shows the position of rs2517955.