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. 2014 May;50(5):912-22.
doi: 10.1165/rcmb.2013-0304OC.

DNA methylation is globally disrupted and associated with expression changes in chronic obstructive pulmonary disease small airways

Emily A Vucic  1 Raj ChariKelsie L ThuIan M WilsonAllison M CottonJennifer Y KennettMay ZhangKim M LonerganKatrina SteilingCarolyn J BrownAnnette McWilliamsKeishi OhtaniMarc E LenburgDon D SinAvrum SpiraCalum E MacaulayStephen LamWan L Lam
Affiliations

DNA methylation is globally disrupted and associated with expression changes in chronic obstructive pulmonary disease small airways

Emily A Vucic et al. Am J Respir Cell Mol Biol. 2014 May.

Abstract

DNA methylation is an epigenetic modification that is highly disrupted in response to cigarette smoke and involved in a wide spectrum of malignant and nonmalignant diseases, but surprisingly not previously assessed in small airways of patients with chronic obstructive pulmonary disease (COPD). Small airways are the primary sites of airflow obstruction in COPD. We sought to determine whether DNA methylation patterns are disrupted in small airway epithelia of patients with COPD, and evaluate whether changes in gene expression are associated with these disruptions. Genome-wide methylation and gene expression analysis were performed on small airway epithelial DNA and RNA obtained from the same patient during bronchoscopy, using Illumina's Infinium HM27 and Affymetrix's Genechip Human Gene 1. 0 ST arrays. To control for known effects of cigarette smoking on DNA methylation, methylation and gene expression profiles were compared between former smokers with and without COPD matched for age, pack-years, and years of smoking cessation. Our results indicate that aberrant DNA methylation is (1) a genome-wide phenomenon in small airways of patients with COPD, and (2) associated with altered expression of genes and pathways important to COPD, such as the NF-E2-related factor 2 oxidative response pathway. DNA methylation is likely an important mechanism contributing to modulation of genes important to COPD pathology. Because these methylation events may underlie disease-specific gene expression changes, their characterization is a critical first step toward the development of epigenetic markers and an opportunity for developing novel epigenetic therapeutic interventions for COPD. VSports手机版.

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Figures

Figure 1.
Figure 1.
Principal component analysis. Nine GOLD stage II (blue dots), six GOLD stage III (green dots) and 23 control subjects (red dots), were clustered based on 100 of the most differentially methylated (DM) genes between six stage III and six control subjects. While COPD and normal methylation profiles generally clustered separately, severe and moderate COPD subjects did not distinctly separate.
Figure 2.
Figure 2.
DM genes in COPD small airways correspond to three significantly enriched pathways. We detected 1,120 DM genes in small airways of patients with COPD compared with methylation profiles from individuals without COPD. These genes corresponded to three significantly enriched pathways: G protein–coupled receptor signaling (31 genes; Benjamini and Hochberg [B-H] P = 0.024), Aryl hydrocarbon receptor signaling (20 genes; B-H P = 0.0276), and cAMP-mediated signaling (26 genes; B-H P = 0.0345). The horizontal axis displays −log of the B-H P value, calculated by Fisher’s exact test right tailed, representing the probability that pathways are enriched in a given gene set by random chance. A B-H P value of 0.05 is indicated by the vertical red line.
Figure 3.
Figure 3.
DM and inversely differentially expressed (DE) genes in COPD airways. (A) Heat map: 141 DM and inversely DE genes in COPD small airways, corresponding to 130 hypermethylated and underexpressed genes and 11 hypomethylated and overexpressed genes are depicted for 38 samples (COPD = 15, purple bar; non-COPD = 23, red bar). M values are plotted. Positive M values correspond to more (bright blue) and less (black) methylation. Genes correspond to Table E3. (B) Pathways enriched in DM and DE COPD airway gene set. Three pathways were significantly (P < 0.05) enriched in the 141 DM and DE genes. These included: phosphatase and tensin homolog (PTEN) signaling (P = 0.016); the NF-E2–related factor (Nrf) 2–mediated oxidative stress response pathway (P = 0.0178); and the IL-17F in allergic inflammatory airway diseases (P = 0.0288). The horizontal axis displays −log of the P value which was calculated by Fisher’s exact test right tailed, representing the probability that pathways are enriched in a given gene set by random chance. A P value of 0.05 is indicated by the vertical red line.
Figure 4.
Figure 4.
The Nrf2-mediated oxidative stress response pathway is altered at multiple levels by DNA methylation in COPD airways. Increased cellular levels of reactive oxidative species (ROS), which are produced from multiple sources, inhibit Kelch-like ECH-associated protein 1 (KEAP1)/Cullin 3 (CUL3)/ring-box 1, E3 ubiquitin protein ligase (RBX1)-mediated NRF2 ubiquitination and proteosomal degradation, allowing NRF2 nuclear translocation. Antioxidant response element (ARE) genes, which are transcriptionally activated by NRF2, mediate a multitude of processes involved in cellular protection from ROS damage. Compared with small airways from individuals with normal lung function, genes in the Nrf2 pathway are differentially altered at the level of DNA methylation and gene expression at multiple up- and downstream points in COPD small airways. Genes hypermethylated in COPD airways are colored light blue; genes hypermethylated and concomitantly underexpressed in COPD airways are colored green. An impaired Nrf2 response can result in increased damage from ROS.
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