Abstract
The lungs have a remarkable capacity to undergo homoeostatic repair and regeneration after injury, which often occurs in patients with acute respiratory distress syndrome (ARDS) and in the single-dose bleomycin mouse model. Fibroblasts are critical mediators of fibrotic disease and RNA sequencing has identified significant heterogeneity within pulmonary fibroblast populations. However, the contribution of distinct fibroblast subsets to the repair process has been understudied compared to their role in fibrosis initiation and progression. Therefore, we sought to define the transcriptional landscape of three phenotypically-defined fibroblast subsets that occupy discrete spatial locations in naïve lungs. Using TdTomato-lineage tracing approaches, we identified and interrogated collagen1a1+ (Col1a1) fibroblasts, perilipin 2+ (Plin2) alveolar fibroblasts, and a-smooth muscle actin+ (Acta2) myofibroblasts during fibrosis development and resolution after single-dose bleomycin. Quantification of fibroblast numbers showed that all three subsets expand during fibrosis and contract towards naïve levels with resolution. Principal component and gene-set enrichment analyses indicated that each subset undergoes major transcriptomic shifts during fibrosis development, converging on a similar pro-fibrotic transcriptional profile. However, during resolution, Plin2+ and Acta2+ fibroblasts revert towards a pre-fibrotic transcriptional state, whereas Col1a1+ fibroblasts acquire a distinct program that suggests suggesting an active role in mediating the repair processes.
Authors
Daniel G. Foster, Nomin Javkhlan, Bart P. Black, Brian E. Vestal, David W.H. Riches, Elizabeth F. Redente
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