Exome Array Analysis Identifies a Common Variant in IL27 Associated with Chronic Obstructive Pulmonary Disease

Overview

Journal Am J Respir Crit Care Med

Specialty Critical Care

Date 2016 Jan 16

PMID 26771213

Citations 29

Authors

Brian D Hobbs

Margaret M Parker

Han Chen

Taotao Lao

Megan Hardin

Dandi Qiao

Iwona Hawrylkiewicz

Pawel Sliwinski

Jae-Joon Yim

Woo Jin Kim

Deog Kyeom Kim

Peter J Castaldi

Craig P Hersh

Jarrett Morrow

Bartolome R Celli

Victor M Pinto-Plata

Gerald J Criner

Nathaniel Marchetti

Raphael Bueno

Alvar Agusti

Barry J Make

James D Crapo

Peter M Calverley

Claudio F Donner

David A Lomas

Emiel F M Wouters

Jorgen Vestbo

Peter D Pare

Robert D Levy

Stephen I Rennard

Xiaobo Zhou

Nan M Laird

Xihong Lin

Terri H Beaty

Edwin K Silverman

Michael H Cho

Affiliations

Soon will be listed here.

Abstract

Rationale: Chronic obstructive pulmonary disease (COPD) susceptibility is in part related to genetic variants. Most genetic studies have been focused on genome-wide common variants without a specific focus on coding variants, but common and rare coding variants may also affect COPD susceptibility.

Objectives: To identify coding variants associated with COPD.

Methods: We tested nonsynonymous, splice, and stop variants derived from the Illumina HumanExome array for association with COPD in five study populations enriched for COPD. We evaluated single variants with a minor allele frequency greater than 0.5% using logistic regression. Results were combined using a fixed effects meta-analysis. We replicated novel single-variant associations in three additional COPD cohorts.

Measurements And Main Results: We included 6,004 control subjects and 6,161 COPD cases across five cohorts for analysis. Our top result was rs16969968 (P = 1.7 × 10(-14)) in CHRNA5, a locus previously associated with COPD susceptibility and nicotine dependence. Additional top results were found in AGER, MMP3, and SERPINA1. A nonsynonymous variant, rs181206, in IL27 (P = 4.7 × 10(-6)) was just below the level of exome-wide significance but attained exome-wide significance (P = 5.7 × 10(-8)) when combined with results from other cohorts. Gene expression datasets revealed an association of rs181206 and the surrounding locus with expression of multiple genes; several were differentially expressed in COPD lung tissue, including TUFM.

Conclusions: In an exome array analysis of COPD, we identified nonsynonymous variants at previously described loci and a novel exome-wide significant variant in IL27. This variant is at a locus previously described in genome-wide associations with diabetes, inflammatory bowel disease, and obesity and appears to affect genes potentially related to COPD pathogenesis.

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