Maladaptive functional changes in alveolar fibroblasts due to perinatal hyperoxia impair epithelial differentiation
Matthew R. Riccetti, Mereena George Ushakumary, Marion Waltamath, Jenna Green, John Snowball, Sydney E. Dautel, Mehari Endale, Bonny Lami, Jason Woods, Shawn K. Ahlfeld, Anne-Karina T. Perl
Matthew R. Riccetti, Mereena George Ushakumary, Marion Waltamath, Jenna Green, John Snowball, Sydney E. Dautel, Mehari Endale, Bonny Lami, Jason Woods, Shawn K. Ahlfeld, Anne-Karina T. Perl
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Research Article Development Pulmonology

Maladaptive functional changes in alveolar fibroblasts due to perinatal hyperoxia impair epithelial differentiation

Abstract

Infants born prematurely worldwide have up to a 50% chance of developing bronchopulmonary dysplasia (BPD), a clinical morbidity characterized by dysregulated lung alveolarization and microvascular development. It is known that PDGFR alpha–positive (PDGFRA+) fibroblasts are critical for alveolarization and that PDGFRA+ fibroblasts are reduced in BPD. A better understanding of fibroblast heterogeneity and functional activation status during pathogenesis is required to develop mesenchymal population–targeted therapies for BPD. In this study, we utilized a neonatal hyperoxia mouse model (90% O2 postnatal days 0–7, PN0–PN7) and performed studies on sorted PDGFRA+ cells during injury and room air recovery. After hyperoxia injury, PDGFRA+ matrix and myofibroblasts decreased and PDGFRA+ lipofibroblasts increased by transcriptional signature and population size. PDGFRA+ matrix and myofibroblasts recovered during repair (PN10). After 7 days of in vivo hyperoxia, PDGFRA+ sorted fibroblasts had reduced contractility in vitro, reflecting loss of myofibroblast commitment. Organoids made with PN7 PDGFRA+ fibroblasts from hyperoxia in mice exhibited reduced alveolar type 1 cell differentiation, suggesting reduced alveolar niche-supporting PDGFRA+ matrix fibroblast function. Pathway analysis predicted reduced WNT signaling in hyperoxia fibroblasts. In alveolar organoids from hyperoxia-exposed fibroblasts, WNT activation by CHIR increased the size and number of alveolar organoids and enhanced alveolar type 2 cell differentiation.

Authors

Matthew R. Riccetti, Mereena George Ushakumary, Marion Waltamath, Jenna Green, John Snowball, Sydney E. Dautel, Mehari Endale, Bonny Lami, Jason Woods, Shawn K. Ahlfeld, Anne-Karina T. Perl

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Figure 6

CHIR and PDGF-AA rescue support of the alveolar niche.

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CHIR and PDGF-AA rescue support of the alveolar niche. (A) Collagen cont...
(A) Collagen contraction assay on PN7 PDGFRA+ RA and O2 fibroblasts performed, treated with/without CHIR or recombinant hPDGF-AA (PDGF-AA), imaged after 2 days in culture, quantified by measuring collagen pellet area. n = 2–3 samples per group. (B) Organoids made by coculturing fibroblasts from PN7 RA or O2-exposed (PN0–PN7, 90% O2) with adult RA epithelium, treated with or without CHIR or PDGF-AA starting 7 days into culture. Bright-field images were taken on fixed samples after 3 weeks of growth. Scale bar = 2 mm. (C and D) Small alveolar and large alveolar organoids were quantified on Nikon Elements by restricting colony size to >100 μm and <250 μm in C and >250 μm and <500 μm in D. n = 2–10 Transwells (replicates). (E and I) Immunofluorescence on paraffin-embedded sections of organoids for markers of epithelial differentiation. Scale bar = 100 μm. (FH, J, and K) Organoids quantified using Nikon Elements. Nuclear antibody stain (HOPX, P63) quantified by taking total antibody over DAPI, and cytoplasmic and membrane stains (SPC, AGER, CCSP) were quantified as antibody area over DAPI area. n = 2–10, organoid Transwells (replicates) used, 3 slides per Transwell. The box plots are as defined in Figure 4. In A, C, D, FH, J, and K, 1-way ANOVA followed by Tukey’s multiple comparison was used to determine significance between 3 or more groups, *P < 0.05; **P < 0.01; ***P < 0.001; ****P < 0.0001. In A, C, and D, error bars show mean ± SEM. (L) Ratio of (AGER Area/DAPI Area)/(SPC Area/DAPI Area) within each image of O2 + CHIR versus O2 + PDGF-AA calculated to measure AT1/AT2 ratio. A 2-tailed Student’s t test was used, **P < 0.01. In FH and JL, data displayed as box-and-whisker plot.