07 May 22. Featured Paper

Lung tissue shows divergent gene expression between chronic obstructive pulmonary disease and idiopathic pulmonary fibrosis

Link to paper on Respiratory Research

 

Authors

Auyon J. Ghosh, Brian D. Hobbs, Jeong H. Yun, Aabida Saferali, Matthew Moll, Zhonghui Xu, Robert P. Chase, Jarrett Morrow, John Ziniti, Frank Sciurba, Lucas Barwick, Andrew H. Limper, Kevin Flaherty, Gerard Criner, Kevin K. Brown, Robert Wise, Fernando J. Martinez, Daniel McGoldrick, Michael H. Cho, Dawn L. DeMeo, Edwin K. Silverman, Peter J. Castaldi, NHLBI Trans-Omics for Precision Medicine (TOPMed) Consortium & Craig P. Hersh

 

Abstract

Background: Chronic obstructive pulmonary disease (COPD) and idiopathic pulmonary fibrosis (IPF) are characterized by shared exposures and clinical features, but distinct genetic and pathologic features exist. These features have not been well-studied using large-scale gene expression datasets. We hypothesized that there are divergent gene, pathway, and cellular signatures between COPD and IPF.

Methods: We performed RNA-sequencing on lung tissues from individuals with IPF (n = 231) and COPD (n = 377) compared to control (n = 267), defined as individuals with normal spirometry. We grouped the overlapping differential expression gene sets based on direction of expression and examined the resultant sets for genes of interest, pathway enrichment, and cell composition. Using gene set variation analysis, we validated the overlap group gene sets in independent COPD and IPF data sets.

Results: We found 5010 genes differentially expressed between COPD and control, and 11,454 genes differentially expressed between IPF and control (1% false discovery rate). 3846 genes overlapped between IPF and COPD. Several pathways were enriched for genes upregulated in COPD and downregulated in IPF; however, no pathways were enriched for genes downregulated in COPD and upregulated in IPF. There were many myeloid cell genes with increased expression in COPD but decreased in IPF. We found that the genes upregulated in COPD but downregulated in IPF were associated with lower lung function in the independent validation cohorts.

Conclusions: We identified a divergent gene expression signature between COPD and IPF, with increased expression in COPD and decreased in IPF. This signature is associated with worse lung function in both COPD and IPF.

 

Keywords
  • COPD
  • IPF
  • RNA sequencing

 

 

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Featured paper: Lung tissue shows divergent gene expression between chronic obstructive pulmonary disease and idiopathic pulmonary fibrosis