Sex-specific associations with DNA methylation in lung tissue demonstrate smoking interactions

• Published in: Epigenetics Vol. 16; no. 6; pp. 692 - 703
• Main Authors: Koo, Hyeon-Kyoung, Morrow, Jarrett, Kachroo, Priyadarshini, Tantisira, Kelan, Weiss, Scott T, Hersh, Craig P, Silverman, Edwin K, DeMeo, Dawn L
• Format: Journal Article
• Language: English
• Published: United States Taylor & Francis 03.06.2021; Taylor & Francis Group
• Subjects: Cigarette Smoking; COPD; CpG Islands; DNA Methylation; epigenetics; Female; Humans; Lung; Male; Research Paper; sex; Smoking; cigarette smoking; DNA methylation; epigenetics; sex; COPD
• ISSN: 1559-2294; 1559-2308; 1559-2308
• DOI: 10.1080/15592294.2020.1819662

Cigarette smoking impacts DNA methylation, but the investigation of sex-specific features of lung tissue DNA methylation in smokers has been limited. Women appear more susceptible to cigarette smoke, and often develop more severe lung disease at an earlier age with less smoke exposure. We aimed to analyse whether there are sex differences in DNA methylation in lung tissue and whether these DNA methylation marks interact with smoking. We collected lung tissue samples from former smokers who underwent lung tissue resection. One hundred thirty samples from white subjects were included for this analysis. Regression models for sex as a predictor of methylation were adjusted for age, presence of COPD, smoking variables and technical batch variables revealed 710 associated sites. 294 sites demonstrated robust sex-specific methylation associations in foetal lung tissue. Pathway analysis identified 6 nominally significant pathways including the mitophagy pathway. Three CpG sites demonstrated a suggested interaction between sex and pack-years of smoking: GPR132, ANKRD44 and C19orf60. All of them were nominally significant in both male- and female-specific models, and the effect estimates were in opposite directions for male and female; GPR132 demonstrated significant association between DNA methylation and gene expression in lung tissue (P < 0.05). Sex-specific associations with DNA methylation in lung tissue are wide-spread and may reveal genes and pathways relevant to sex differences for lung damaging effects of cigarette smoking.