Transcriptomic responses of lung mesenchymal cells during pneumonia
Alicia M. Soucy, Jourdan E. Brune, Archana Jayaraman, Anukul T. Shenoy, Filiz T. Korkmaz, Neelou S. Etesami, Bradley E. Hiller, Ian M.C. Martin, Wesley N. Goltry, Catherine T. Ha, Nicholas A. Crossland, Joshua D. Campbell, Thomas G. Beach, Katrina E. Traber, Matthew R. Jones, Lee J. Quinton, Markus Bosmann, Charles W. Frevert, Joseph P. Mizgerd
Alicia M. Soucy, Jourdan E. Brune, Archana Jayaraman, Anukul T. Shenoy, Filiz T. Korkmaz, Neelou S. Etesami, Bradley E. Hiller, Ian M.C. Martin, Wesley N. Goltry, Catherine T. Ha, Nicholas A. Crossland, Joshua D. Campbell, Thomas G. Beach, Katrina E. Traber, Matthew R. Jones, Lee J. Quinton, Markus Bosmann, Charles W. Frevert, Joseph P. Mizgerd
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Research Article Immunology Pulmonology

Transcriptomic responses of lung mesenchymal cells during pneumonia

Abstract

The role of mesenchymal cells during respiratory infection is not well defined, including whether, which, and how the different types of mesenchymal cells respond. We collected all mesenchymal cells from lung single-cell suspensions of mice that were naive (after receiving only saline vehicle), pneumonic (after intratracheal instillation of pneumococcus 24 hours previously), or resolved from infection (after nonlethal pneumococcal infections 6 weeks previously) and performed single-cell RNA sequencing. Cells clustered into 5 well-separated groups based on their transcriptomes: matrix fibroblasts, myofibroblasts, pericytes, smooth muscle cells, and mesothelial cells. Fibroblasts were the most abundant and could be further segregated into Pdgfra+Npnt+Ces1d+Col13a1+ alveolar fibroblasts and Cd9+Pi16+Sca1+Col14a1+ adventitial fibroblasts. The cells from naive and resolved groups overlapped in dimension reduction plots, suggesting the mesenchymal cells returned to baseline transcriptomes after resolution. During pneumonia, all mesenchymal cells responded with altered transcriptomes, revealing a core response that had been conserved across cell types as well as distinct mesenchymal cell type–specific responses. The different subsets of fibroblasts induced similar gene sets, but the alveolar fibroblasts responded more strongly than the adventitial fibroblasts. These data demonstrated diverse and specialized immune activities of lung mesenchymal cells during pneumonia.

Authors

Alicia M. Soucy, Jourdan E. Brune, Archana Jayaraman, Anukul T. Shenoy, Filiz T. Korkmaz, Neelou S. Etesami, Bradley E. Hiller, Ian M.C. Martin, Wesley N. Goltry, Catherine T. Ha, Nicholas A. Crossland, Joshua D. Campbell, Thomas G. Beach, Katrina E. Traber, Matthew R. Jones, Lee J. Quinton, Markus Bosmann, Charles W. Frevert, Joseph P. Mizgerd

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Figure 6

Alveolar fibroblasts are more responsive to pneumococcal pneumonia.

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Alveolar fibroblasts are more responsive to pneumococcal pneumonia. (A) ...
(A) Heatmap representation shows gene expression of core matrix fibroblast response genes induced during 24 hours of S. pneumoniae infection. Colors along the top of the heatmaps indicate treatment groups: naive (blue), pneumonic (orange), and resolved (black). XY scatterplot representation of the (B) log2(fold-change) and (C) average gene expression of core matrix fibroblast genes, illustrating that alveolar fibroblasts respond more robustly than adventitial fibroblasts. Violin plots show that alveolar fibroblasts have stronger expression of (D) Clec2d, (E) Osmr, (F) Cxcl5, (G) Cd44, and (H) Icam1, genes associated with leukocyte recruitment and migration. Significance was determined by 1-way ANOVA followed by Tukey’s multiple comparisons test. Flow cytometry analysis of mesenchymal cells shows that PDGFRα+ single-positive cells express surface (I) CD44 and (J) ICAM1 in both naive and pneumonic mice, whereas Sca1+ single-positive cells do not express either protein, even during pneumonia (n = 5–6 mice per time point). A PDGFRα+Sca1+ double-positive population showed a distinct phenotype and were negative for CD44 but positive for ICAM1. Significance was determined by 2-way ANOVA followed by Tukey’s multiple comparisons test (*P < 0.05). All data are mean ± SD; data points are values from individual mice (I and J).