Functional Pdgfra fibroblast heterogeneity in normal and fibrotic mouse lung
Carol S. Trempus, Brian N. Papas, Maria I. Sifre, Carl D. Bortner, Erica Scappini, Charles J. Tucker, Xin Xu, Katina L. Johnson, Leesa J. Deterding, Jason G. Williams, Dylan J. Johnson, Jian-Liang Li, Deloris Sutton, Charan Ganta, Debabrata Mahapatra, Muhammad Arif, Abhishek Basu, Lenny Pommerolle, Resat Cinar, Anne K. Perl, Stavros Garantziotis
Carol S. Trempus, Brian N. Papas, Maria I. Sifre, Carl D. Bortner, Erica Scappini, Charles J. Tucker, Xin Xu, Katina L. Johnson, Leesa J. Deterding, Jason G. Williams, Dylan J. Johnson, Jian-Liang Li, Deloris Sutton, Charan Ganta, Debabrata Mahapatra, Muhammad Arif, Abhishek Basu, Lenny Pommerolle, Resat Cinar, Anne K. Perl, Stavros Garantziotis
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Research Article Pulmonology

Functional Pdgfra fibroblast heterogeneity in normal and fibrotic mouse lung

Abstract

Aberrant fibroblast function plays a key role in the pathogenesis of idiopathic pulmonary fibrosis, a devastating disease of unrelenting extracellular matrix deposition in response to lung injury. Platelet-derived growth factor α–positive (Pdgfra+) lipofibroblasts (LipoFBs) are essential for lung injury response and maintenance of a functional alveolar stem cell niche. Little is known about the effects of lung injury on LipoFB function. Here, we used single-cell RNA-Seq (scRNA-Seq) technology and PdgfraGFP lineage tracing to generate a transcriptomic profile of Pdgfra+ fibroblasts in normal and injured mouse lungs 14 days after bleomycin exposure, generating 11 unique transcriptomic clusters that segregated according to treatment. While normal and injured LipoFBs shared a common gene signature, injured LipoFBs acquired fibrogenic pathway activity with an attenuation of lipogenic pathways. In a 3D organoid model, injured Pdgfra+ fibroblast–supported organoids were morphologically distinct from those cultured with normal fibroblasts, and scRNA-Seq analysis suggested distinct transcriptomic changes in alveolar epithelia supported by injured Pdgfra+ fibroblasts. In summary, while LipoFBs in injured lung have not migrated from their niche and retain their lipogenic identity, they acquire a potentially reversible fibrogenic profile, which may alter the kinetics of epithelial regeneration and potentially contribute to dysregulated repair, leading to fibrosis.

Authors

Carol S. Trempus, Brian N. Papas, Maria I. Sifre, Carl D. Bortner, Erica Scappini, Charles J. Tucker, Xin Xu, Katina L. Johnson, Leesa J. Deterding, Jason G. Williams, Dylan J. Johnson, Jian-Liang Li, Deloris Sutton, Charan Ganta, Debabrata Mahapatra, Muhammad Arif, Abhishek Basu, Lenny Pommerolle, Resat Cinar, Anne K. Perl, Stavros Garantziotis

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Figure 9

Alveolosphere culture reveals morphological differences in organoids derived from fibrogenic Pdgfra+ fibroblasts versus normal fibroblasts.

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Alveolosphere culture reveals morphological differences in organoids der...
(A) Diagram of experimental workflow. (B) Representative epifluorescence images of alveolospheres on day 14 of culture (PBS on the left and bleomycin on the right). Scale bars: 500 μm. Insets show luminal organoid (PBS) and solid organoid (bleomycin) morphology. Scale bars: 250 μm. (C) Measurement of percentage luminal organoids per treatment group. (D) Luminal organoid size distribution per treatment group. Organoid morphology and size distribution were measured from a total of 9 individual cultures per treatment. Data shown here are representative of 2 independent experiments. (E) Whole-mount staining and confocal imaging showing localization of SFTPC (marks AEC2s) and HOPX (marks AEC1s) in alveolospheres derived from PBS-derived (left panel) and bleomycin-derived (right panel) Pdgfra+ fibroblasts. Scale bar: 50 μm. (F) Representative luminal (PBS) and condensed (bleomycin) organoids stained for HOPX and with DAPI used for determination of percentage HOPX area between cluster morphologies (total of 3 organoids measured per group). Scale bars: 50 μm. (G) Percentage HOPX+ area between PBS-treated (normal) and bleomycin-treated (fibrogenic) fibroblast–supported alveolospheres. *P < 0.05; **P < 0.001; ****P < 0.0001 by 2-tailed Student’s t test (C and G) or 2-way ANOVA with Šidák’s correction for multiple comparisons (D).