Transcription factor FOXF1 identifies compartmentally distinct mesenchymal cells with a role in lung allograft fibrogenesis
Russell R. Braeuer, … , Joshua D. Welch, Vibha N. Lama
Russell R. Braeuer, … , Joshua D. Welch, Vibha N. Lama
Published September 21, 2021
Citation Information: J Clin Invest. 2021;131(21):e147343. https://doi.org/10.1172/JCI147343.
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Concise Communication Cell biology Pulmonology

Transcription factor FOXF1 identifies compartmentally distinct mesenchymal cells with a role in lung allograft fibrogenesis

Abstract

In this study, we demonstrate that forkhead box F1 (FOXF1), a mesenchymal transcriptional factor essential for lung development, was retained in a topographically distinct mesenchymal stromal cell population along the bronchovascular space in an adult lung and identify this distinct subset of collagen-expressing cells as key players in lung allograft remodeling and fibrosis. Using Foxf1-tdTomato BAC (Foxf1-tdTomato) and Foxf1-tdTomato Col1a1-GFP mice, we show that Lin–Foxf1+ cells encompassed the stem cell antigen 1+CD34+ (Sca1+CD34+) subset of collagen 1–expressing mesenchymal cells (MCs) with a capacity to generate CFU and lung epithelial organoids. Histologically, FOXF1-expressing MCs formed a 3D network along the conducting airways; FOXF1 was noted to be conspicuously absent in MCs in the alveolar compartment. Bulk and single-cell RNA-Seq confirmed distinct transcriptional signatures of Foxf1+ and Foxf1– MCs, with Foxf1-expressing cells delineated by their high expression of the transcription factor glioma-associated oncogene 1 (Gli1) and low expression of integrin α8 (Itga), versus other collagen-expressing MCs. FOXF1+Gli1+ MCs showed proximity to Sonic hedgehog–expressing (Shh-expressing) bronchial epithelium, and mesenchymal expression of Foxf1 and Gli1 was found to be dependent on paracrine Shh signaling in epithelial organoids. Using a murine lung transplant model, we show dysregulation of epithelial-mesenchymal SHH/GLI1/FOXF1 crosstalk and expansion of this specific peribronchial MC population in chronically rejecting fibrotic lung allografts.

Authors

Russell R. Braeuer, Natalie M. Walker, Keizo Misumi, Serina Mazzoni-Putman, Yoshiro Aoki, Ruohan Liao, Ragini Vittal, Gabriel G. Kleer, David S. Wheeler, Jonathan Z. Sexton, Carol F. Farver, Joshua D. Welch, Vibha N. Lama

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Figure 1

Foxf1-tdTomato labels Sca1+ MCs in the adult mouse lung.

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Foxf1-tdTomato labels Sca1+ MCs in the adult mouse lung. (A) Flow cytome...
(A) Flow cytometric analysis of single-cell suspensions from lungs of adult C57BL/6J-Tg(Foxf1-tdTomato) BAC mice. Real-time PCR analysis of Foxf1-tdTomato+ (TD+) or Foxf1-tdTomato (TD) sorted cells. (B) TD+ populations from A were analyzed for the indicated markers. (C and D) Lin(CD45CD31EpCAM) Foxf1-tdTomato+ or Foxf1-tdTomato cells from Tg(Foxf1-tdTomato) BAC mice were analyzed for the indicated cell-surface markers. (EH) Flow cytometric analysis of adult lungs from Foxf1-tdTomato Col1GFP mice. Foxf1-tdTomato Col1+ MCs were sorted and analyzed for FOXF1 expression by Western blotting (F) and CFU assay (G). n = 7. (H) SCA1 and CD34 expression in LinCol1GFP+PDGFRα+Foxf1-tdTomato cells. (I) Characterization of the LinSCA1+ cell population in adult Foxf1-tdTomato BAC mice by flow cytometry (n = 7). (J) SCA1 cell-surface expression in Foxf1-overexpressing (OE) murine lung fibroblasts. Data indicate the mean ± SD. *P < 0.05 and ***P < 0.001, by 2-tailed, unpaired t test (A and G). SSC-A, side scatter area.