Epigenomic study of the lower airway reveals COPD-associated methylation patterns and potential microbiota links

Shuo Cao; Abhishek Shrivastav; Eugene R. Bleecker; Siddharth Madapoosi; John Erb-Downward; Joe Zein; Xianfeng Chen; Timothy D. Howard; Gregory A. Hawkins; Igor Z. Barjaktarevic; Russell Bowler; Robert Graham Barr; Alejandro Comellas; Christopher B. Cooper; David Couper; Meilan Han; Nadia N. Hansel; Annette T. Hastie; Robert Kaner; Richard E. Kanner; Victor Kim; Fernando J. Martinez; Wendy C. Moore; Wanda K. O’Neal; Robert Paine; Benjamin Smith; Eric A. Hoffman; Deborah A. Meyers; Prescott G. Woodruff; Stephanie Christenson; Jeffrey L. Curtis; Yvonne Jean Huang; Victor E. Ortega

doi:10.1136/bmjresp-2025-003572

Epigenomic study of the lower airway reveals COPD-associated methylation patterns and potential microbiota links

Shuo Cao
, Abhishek Shrivastav
, Eugene R. Bleecker
, Siddharth Madapoosi
, John Erb-Downward
, Joe Zein
, Xianfeng Chen
, Timothy D. Howard
, Gregory A. Hawkins
, Igor Z. Barjaktarevic
, Russell Bowler
, Robert Graham Barr
, Alejandro Comellas
, Christopher B. Cooper
, David Couper
, Meilan Han
, Nadia N. Hansel
, Annette T. Hastie
, Robert Kaner
, Richard E. Kanner

Victor Kim, Fernando J. Martinez, Wendy C. Moore, Wanda K. O’Neal, Robert Paine, Benjamin Smith, Eric A. Hoffman, Deborah A. Meyers, Prescott G. Woodruff, Stephanie Christenson, Jeffrey L. Curtis, Yvonne Jean Huang, Victor E. Ortega

Research output: Contribution to journal › Article › peer-review

Abstract

Introduction Despite the identification of multiple susceptibility loci by genome-wide association studies (GWAS), considerable chronic obstructive pulmonary disease (COPD) heritability remains unexplained. Aim To identify interaction networks of airway epithelial cell DNA methylation in COPD and further explore potential correlations with airway bacterial composition, as potentially collective regulators of biological pathways influencing COPD severity. Methods Using DNA isolated from bronchial airway brushings of 67 ever-smokers (>20 pack-years) from the SubPopulations and InteRmediate Outcomes Measures in COPD Study (SPIROMICS), we assessed proportion of DNA methylation (β) by epigenome-wide association study (EWAS) and examined associations of differentially methylated CpG probes (DMPs) with risk for moderate-to-severe COPD (N=34) versus absent or mild COPD (N=33). We tested co-methylation modules generated by Weighted Correlation Network Analyses (WGCNA) for associations with moderate-to-severe COPD and with bacterial genus-level relative abundances (16S rRNA sequencing). Results EWAS-identified nominally significant DMPs enriched for lung function GWAS loci. Eigengenes in six WGCNA modules were associated with moderate-to-severe COPD (false discovery rate <0.05). Four of those modules were enriched for forced expiratory volume in 1 s/forced vital capacity GWAS loci, and five overlapped with DMPs from EWAS. Overlapping CpG loci in three COPD-associated modules were adjacent to mucin genes; one had 10 genes highly ranked by connectivity with MUC5B, including important pathway genes: B3GNT6, DGKI and ITGA8. CpGs in an independent COPD-associated module showed the most correlations with Rothia, with directionality suggestive of negative associations with moderate-severe COPD. Conclusions Bronchial epithelial DNA methylation modules enriched for lung function GWAS loci associate with COPD severity in SPIROMICS.

Original language	English (US)
Article number	e003572
Journal	BMJ Open Respiratory Research
Volume	12
Issue number	1
DOIs	https://doi.org/10.1136/bmjresp-2025-003572
State	Published - Dec 18 2025
Externally published	Yes

ASJC Scopus subject areas

Pulmonary and Respiratory Medicine

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10.1136/bmjresp-2025-003572

Cite this

Cao, S., Shrivastav, A., Bleecker, E. R., Madapoosi, S., Erb-Downward, J., Zein, J., Chen, X., Howard, T. D., Hawkins, G. A., Barjaktarevic, I. Z., Bowler, R., Barr, R. G., Comellas, A., Cooper, C. B., Couper, D., Han, M., Hansel, N. N., Hastie, A. T., Kaner, R., ... Ortega, V. E. (2025). Epigenomic study of the lower airway reveals COPD-associated methylation patterns and potential microbiota links. BMJ Open Respiratory Research, 12(1), Article e003572. https://doi.org/10.1136/bmjresp-2025-003572

Cao, S, Shrivastav, A, Bleecker, ER, Madapoosi, S, Erb-Downward, J, Zein, J, Chen, X, Howard, TD, Hawkins, GA, Barjaktarevic, IZ, Bowler, R, Barr, RG, Comellas, A, Cooper, CB, Couper, D, Han, M, Hansel, NN, Hastie, AT, Kaner, R, Kanner, RE, Kim, V, Martinez, FJ, Moore, WC, O’Neal, WK, Paine, R, Smith, B, Hoffman, EA, Meyers, DA, Woodruff, PG, Christenson, S, Curtis, JL, Huang, YJ & Ortega, VE 2025, 'Epigenomic study of the lower airway reveals COPD-associated methylation patterns and potential microbiota links', BMJ Open Respiratory Research, vol. 12, no. 1, e003572. https://doi.org/10.1136/bmjresp-2025-003572

@article{9a718e0ae01549a8a5a9b1418c570b62,

title = "Epigenomic study of the lower airway reveals COPD-associated methylation patterns and potential microbiota links",

abstract = "Introduction Despite the identification of multiple susceptibility loci by genome-wide association studies (GWAS), considerable chronic obstructive pulmonary disease (COPD) heritability remains unexplained. Aim To identify interaction networks of airway epithelial cell DNA methylation in COPD and further explore potential correlations with airway bacterial composition, as potentially collective regulators of biological pathways influencing COPD severity. Methods Using DNA isolated from bronchial airway brushings of 67 ever-smokers (>20 pack-years) from the SubPopulations and InteRmediate Outcomes Measures in COPD Study (SPIROMICS), we assessed proportion of DNA methylation (β) by epigenome-wide association study (EWAS) and examined associations of differentially methylated CpG probes (DMPs) with risk for moderate-to-severe COPD (N=34) versus absent or mild COPD (N=33). We tested co-methylation modules generated by Weighted Correlation Network Analyses (WGCNA) for associations with moderate-to-severe COPD and with bacterial genus-level relative abundances (16S rRNA sequencing). Results EWAS-identified nominally significant DMPs enriched for lung function GWAS loci. Eigengenes in six WGCNA modules were associated with moderate-to-severe COPD (false discovery rate <0.05). Four of those modules were enriched for forced expiratory volume in 1 s/forced vital capacity GWAS loci, and five overlapped with DMPs from EWAS. Overlapping CpG loci in three COPD-associated modules were adjacent to mucin genes; one had 10 genes highly ranked by connectivity with MUC5B, including important pathway genes: B3GNT6, DGKI and ITGA8. CpGs in an independent COPD-associated module showed the most correlations with Rothia, with directionality suggestive of negative associations with moderate-severe COPD. Conclusions Bronchial epithelial DNA methylation modules enriched for lung function GWAS loci associate with COPD severity in SPIROMICS.",

author = "Shuo Cao and Abhishek Shrivastav and Bleecker, \{Eugene R.\} and Siddharth Madapoosi and John Erb-Downward and Joe Zein and Xianfeng Chen and Howard, \{Timothy D.\} and Hawkins, \{Gregory A.\} and Barjaktarevic, \{Igor Z.\} and Russell Bowler and Barr, \{Robert Graham\} and Alejandro Comellas and Cooper, \{Christopher B.\} and David Couper and Meilan Han and Hansel, \{Nadia N.\} and Hastie, \{Annette T.\} and Robert Kaner and Kanner, \{Richard E.\} and Victor Kim and Martinez, \{Fernando J.\} and Moore, \{Wendy C.\} and O{\textquoteright}Neal, \{Wanda K.\} and Robert Paine and Benjamin Smith and Hoffman, \{Eric A.\} and Meyers, \{Deborah A.\} and Woodruff, \{Prescott G.\} and Stephanie Christenson and Curtis, \{Jeffrey L.\} and Huang, \{Yvonne Jean\} and Ortega, \{Victor E.\}",

note = "Publisher Copyright: {\textcopyright} Author(s) (or their employer(s)) 2025.",

year = "2025",

month = dec,

day = "18",

doi = "10.1136/bmjresp-2025-003572",

language = "English (US)",

volume = "12",

journal = "BMJ Open Respiratory Research",

issn = "2052-4439",

publisher = "BMJ Publishing Group",

number = "1",

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TY - JOUR

T1 - Epigenomic study of the lower airway reveals COPD-associated methylation patterns and potential microbiota links

AU - Cao, Shuo

AU - Shrivastav, Abhishek

AU - Bleecker, Eugene R.

AU - Madapoosi, Siddharth

AU - Erb-Downward, John

AU - Zein, Joe

AU - Chen, Xianfeng

AU - Howard, Timothy D.

AU - Hawkins, Gregory A.

AU - Barjaktarevic, Igor Z.

AU - Bowler, Russell

AU - Barr, Robert Graham

AU - Comellas, Alejandro

AU - Cooper, Christopher B.

AU - Couper, David

AU - Han, Meilan

AU - Hansel, Nadia N.

AU - Hastie, Annette T.

AU - Kaner, Robert

AU - Kanner, Richard E.

AU - Kim, Victor

AU - Martinez, Fernando J.

AU - Moore, Wendy C.

AU - O’Neal, Wanda K.

AU - Paine, Robert

AU - Smith, Benjamin

AU - Hoffman, Eric A.

AU - Meyers, Deborah A.

AU - Woodruff, Prescott G.

AU - Christenson, Stephanie

AU - Curtis, Jeffrey L.

AU - Huang, Yvonne Jean

AU - Ortega, Victor E.

PY - 2025/12/18

Y1 - 2025/12/18

N2 - Introduction Despite the identification of multiple susceptibility loci by genome-wide association studies (GWAS), considerable chronic obstructive pulmonary disease (COPD) heritability remains unexplained. Aim To identify interaction networks of airway epithelial cell DNA methylation in COPD and further explore potential correlations with airway bacterial composition, as potentially collective regulators of biological pathways influencing COPD severity. Methods Using DNA isolated from bronchial airway brushings of 67 ever-smokers (>20 pack-years) from the SubPopulations and InteRmediate Outcomes Measures in COPD Study (SPIROMICS), we assessed proportion of DNA methylation (β) by epigenome-wide association study (EWAS) and examined associations of differentially methylated CpG probes (DMPs) with risk for moderate-to-severe COPD (N=34) versus absent or mild COPD (N=33). We tested co-methylation modules generated by Weighted Correlation Network Analyses (WGCNA) for associations with moderate-to-severe COPD and with bacterial genus-level relative abundances (16S rRNA sequencing). Results EWAS-identified nominally significant DMPs enriched for lung function GWAS loci. Eigengenes in six WGCNA modules were associated with moderate-to-severe COPD (false discovery rate <0.05). Four of those modules were enriched for forced expiratory volume in 1 s/forced vital capacity GWAS loci, and five overlapped with DMPs from EWAS. Overlapping CpG loci in three COPD-associated modules were adjacent to mucin genes; one had 10 genes highly ranked by connectivity with MUC5B, including important pathway genes: B3GNT6, DGKI and ITGA8. CpGs in an independent COPD-associated module showed the most correlations with Rothia, with directionality suggestive of negative associations with moderate-severe COPD. Conclusions Bronchial epithelial DNA methylation modules enriched for lung function GWAS loci associate with COPD severity in SPIROMICS.

AB - Introduction Despite the identification of multiple susceptibility loci by genome-wide association studies (GWAS), considerable chronic obstructive pulmonary disease (COPD) heritability remains unexplained. Aim To identify interaction networks of airway epithelial cell DNA methylation in COPD and further explore potential correlations with airway bacterial composition, as potentially collective regulators of biological pathways influencing COPD severity. Methods Using DNA isolated from bronchial airway brushings of 67 ever-smokers (>20 pack-years) from the SubPopulations and InteRmediate Outcomes Measures in COPD Study (SPIROMICS), we assessed proportion of DNA methylation (β) by epigenome-wide association study (EWAS) and examined associations of differentially methylated CpG probes (DMPs) with risk for moderate-to-severe COPD (N=34) versus absent or mild COPD (N=33). We tested co-methylation modules generated by Weighted Correlation Network Analyses (WGCNA) for associations with moderate-to-severe COPD and with bacterial genus-level relative abundances (16S rRNA sequencing). Results EWAS-identified nominally significant DMPs enriched for lung function GWAS loci. Eigengenes in six WGCNA modules were associated with moderate-to-severe COPD (false discovery rate <0.05). Four of those modules were enriched for forced expiratory volume in 1 s/forced vital capacity GWAS loci, and five overlapped with DMPs from EWAS. Overlapping CpG loci in three COPD-associated modules were adjacent to mucin genes; one had 10 genes highly ranked by connectivity with MUC5B, including important pathway genes: B3GNT6, DGKI and ITGA8. CpGs in an independent COPD-associated module showed the most correlations with Rothia, with directionality suggestive of negative associations with moderate-severe COPD. Conclusions Bronchial epithelial DNA methylation modules enriched for lung function GWAS loci associate with COPD severity in SPIROMICS.

UR - https://www.scopus.com/pages/publications/105025378986

UR - https://www.scopus.com/pages/publications/105025378986#tab=citedBy

U2 - 10.1136/bmjresp-2025-003572

DO - 10.1136/bmjresp-2025-003572

M3 - Article

C2 - 41419234

AN - SCOPUS:105025378986

SN - 2052-4439

VL - 12

JO - BMJ Open Respiratory Research

JF - BMJ Open Respiratory Research

IS - 1

M1 - e003572

ER -

Epigenomic study of the lower airway reveals COPD-associated methylation patterns and potential microbiota links

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