Molecular mapping of interstitial lung disease reveals a phenotypically distinct senescent basal epithelial cell population
Daryle J. DePianto, … , Paul J. Wolters, Joseph R. Arron
Daryle J. DePianto, … , Paul J. Wolters, Joseph R. Arron
Published March 11, 2021
Citation Information: JCI Insight. 2021;6(8):e143626. https://doi.org/10.1172/jci.insight.143626.
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Research Article Aging Pulmonology

Molecular mapping of interstitial lung disease reveals a phenotypically distinct senescent basal epithelial cell population

Abstract

Compromised regenerative capacity of lung epithelial cells can lead to cellular senescence, which may precipitate fibrosis. While increased markers of senescence have been reported in idiopathic pulmonary fibrosis (IPF), the origin and identity of these senescent cells remain unclear, and tools to characterize context-specific cellular senescence in human lung are lacking. We observed that the senescent marker p16 is predominantly localized to bronchiolized epithelial structures in scarred regions of IPF and systemic sclerosis–associated interstitial lung disease (SSc-ILD) lung tissue, overlapping with the basal epithelial markers Keratin 5 and Keratin 17. Using in vitro models, we derived transcriptional signatures of senescence programming specific to different types of lung epithelial cells and interrogated these signatures in a single-cell RNA-Seq data set derived from control, IPF, and SSc-ILD lung tissue. We identified a population of basal epithelial cells defined by, and enriched for, markers of cellular senescence and identified candidate markers specific to senescent basal epithelial cells in ILD that can enable future functional studies. Notably, gene expression of these cells significantly overlaps with terminally differentiating cells in stratified epithelia, where it is driven by p53 activation as part of the senescence program.

Authors

Daryle J. DePianto, Jason A. Vander Heiden, Katrina B. Morshead, Kai-Hui Sun, Zora Modrusan, Grace Teng, Paul J. Wolters, Joseph R. Arron

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Figure 6

Identification of a senescent BEC population enriched in the fibrotic lung.

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Identification of a senescent BEC population enriched in the fibrotic lu...
(A) Boxplots showing the distribution and mean signature scores for both epithelial cell–derived and fibroblast-derived consensus senescence gene sets; each point reflects the mean signature score for an individual subject within the given cluster. The box plots depict the minimum and maximum values (whiskers), the upper and lower quartiles, and the median. The length of the box represents the interquartile range. (B) Heatmap showing the log fold change in normalized expression between the Basal-1 and Basal-2 populations for genes in the union set of control, IPF, and SSc-ILD differentially expressed genes across these 2 clusters; genes upregulated in Basal-2 are shown in red, and genes upregulated in Basal-1 are shown in blue. (C) IHC staining of control, IPF, and SSc-ILD lung tissue sections for LY6D. (D) IHC staining of IPF lung tissue serial sections for LY6D and p16. (E) Scoring of clusters E1–6, from Figure 4, against Basal1/2 gene expression signatures. Scale bars: 100 μm (C), 40 μm (D).