Affiliation:
1. Department of Physiology and Biomedical Engineering Mayo Clinic College of Medicine and Science Rochester Minnesota USA
2. The Hormel Institute, University of Minnesota Austin Minnesota USA
Abstract
AbstractPulmonary fibrosis is characterized by pathological accumulation of scar tissue in the lung parenchyma. Many of the processes that are implicated in fibrosis, including increased extracellular matrix synthesis, also occur following pneumonectomy (PNX), but PNX instead results in regenerative compensatory growth of the lung. As fibroblasts are the major cell type responsible for extracellular matrix production, we hypothesized that comparing fibroblast responses to PNX and bleomycin (BLM) would unveil key differences in the role they play during regenerative versus fibrotic lung responses. RNA‐sequencing was performed on flow‐sorted fibroblasts freshly isolated from mouse lungs 14 days after BLM, PNX, or sham controls. RNA‐sequencing analysis revealed highly similar biological processes to be involved in fibroblast responses to both BLM and PNX, including TGF‐β1 and TNF‐α. Interestingly, we observed smaller changes in gene expression after PNX than BLM at Day 14, suggesting that the fibroblast response to PNX may be muted by expression of transcripts that moderate pro‐fibrotic pathways. Itpkc, encoding inositol triphosphate kinase C, was a gene uniquely up‐regulated by PNX and not BLM. ITPKC overexpression in lung fibroblasts antagonized the pro‐fibrotic effect of TGF‐β1. RNA‐sequencing analysis has identified considerable overlap in transcriptional changes between fibroblasts following PNX and those overexpressing ITPKC.
Funder
National Heart, Lung, and Blood Institute