Epigenetics (Dec 2024)

Novel DNA methylation changes in mouse lungs associated with chronic smoking

  • Chinonye Doris Onuzulu,
  • Samantha Lee,
  • Sujata Basu,
  • Jeannette Comte,
  • Yan Hai,
  • Nikho Hizon,
  • Shivam Chadha,
  • Maria Shenna Fauni,
  • Andrew J. Halayko,
  • Christopher D. Pascoe,
  • Meaghan J. Jones

DOI
https://doi.org/10.1080/15592294.2024.2322386
Journal volume & issue
Vol. 19, no. 1

Abstract

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ABSTRACTSmoking is a potent cause of asthma exacerbations, chronic obstructive pulmonary disease (COPD) and many other health defects, and changes in DNA methylation (DNAm) have been identified as a potential link between smoking and these health outcomes. However, most studies of smoking and DNAm have been done using blood and other easily accessible tissues in humans, while evidence from more directly affected tissues such as the lungs is lacking. Here, we identified DNAm patterns in the lungs that are altered by smoking. We used an established mouse model to measure the effects of chronic smoke exposure first on lung phenotype immediately after smoking and then after a period of smoking cessation. Next, we determined whether our mouse model recapitulates previous DNAm patterns observed in smoking humans, specifically measuring DNAm at a candidate gene responsive to cigarette smoke, Cyp1a1. Finally, we carried out epigenome-wide DNAm analyses using the newly released Illumina mouse methylation microarrays. Our results recapitulate some of the phenotypes and DNAm patterns observed in human studies but reveal 32 differentially methylated genes specific to the lungs which have not been previously associated with smoking. The affected genes are associated with nicotine dependency, tumorigenesis and metastasis, immune cell dysfunction, lung function decline, and COPD. This research emphasizes the need to study CS-mediated DNAm signatures in directly affected tissues like the lungs, to fully understand mechanisms underlying CS-mediated health outcomes.

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