Expression of mutant Sftpc in murine alveolar epithelia drives spontaneous lung fibrosis
Shin-Ichi Nureki, … , Surafel Mulugeta, Michael F. Beers
Shin-Ichi Nureki, … , Surafel Mulugeta, Michael F. Beers
Published June 19, 2018
Citation Information: J Clin Invest. 2018;128(9):4008-4024. https://doi.org/10.1172/JCI99287.
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Research Article Pulmonology

Expression of mutant Sftpc in murine alveolar epithelia drives spontaneous lung fibrosis

Abstract

Epithelial cell dysfunction is postulated as an important component in the pathogenesis of idiopathic pulmonary fibrosis (IPF). Mutations in the surfactant protein C (SP-C) gene (SFTPC), an alveolar type II (AT2) cell–restricted protein, have been found in sporadic and familial IPF. To causally link these events, we developed a knockin mouse model capable of regulated expression of an IPF-associated isoleucine-to-threonine substitution at codon 73 (I73T) in Sftpc (SP-CI73T). Tamoxifen-treated SP-CI73T cohorts developed rapid increases in SftpcI73T mRNA and misprocessed proSP-CI73T protein accompanied by increased early mortality (days 7–14). This acute phase was marked by diffuse parenchymal lung injury, tissue infiltration by monocytes, polycellular alveolitis, and elevations in bronchoalveolar lavage and AT2 mRNA content of select inflammatory cytokines. Resolution of alveolitis (2–4 weeks), commensurate with a rise in TGF-β1, was followed by aberrant remodeling marked by collagen deposition, AT2 cell hyperplasia, α–smooth muscle actin–positive (α-SMA–positive) cells, and restrictive lung physiology. The translational relevance of the model was supported by detection of multiple IPF biomarkers previously reported in human cohorts. These data provide proof of principle that mutant SP-C expression in vivo causes spontaneous lung fibrosis, strengthening the role of AT2 cell dysfunction as a key upstream driver of IPF pathogenesis.

Authors

Shin-Ichi Nureki, Yaniv Tomer, Alessandro Venosa, Jeremy Katzen, Scott J. Russo, Sarita Jamil, Matthew Barrett, Vivian Nguyen, Meghan Kopp, Surafel Mulugeta, Michael F. Beers

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Figure 2

Constitutive deletion of PGK-Neo from SP-CI73T-Neo mice disrupts lung development.

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Constitutive deletion of PGK-Neo from SP-CI73T-Neo mice disrupts lung de...
(A) Backcross of SP-CI73T-Neo founder mice to FLP-e recombinase mice generated multiple genotypes of CFlp-SP-CI73T mice, including unexcised (SP-CI73T-Neo), excised (SP-CI73T), or WT alleles. Representative ×1.5 photomicrographs of H&E-stained lungs harvested from E18.5 CFlp-SP-CI73T mice with 1 (SP-CI73T/WT) or 2 (SP-CI73T/I73T) excised SftpcI73T allele(s) reveal a graded arrest of saccular lung development. (B) Immunoblotting of E18.5 WT or Neo-excised CFlp-SP-CI73T lung homogenates for proSP-C with β-actin as a loading control. Densitometric quantitation of aberrant proSP-CI73T (arrows, bracket) and WT proSP-C (arrowheads). *P < 0.05 versus WT/WT by 1-way ANOVA with Tukey’s post hoc test. (C) Staining of E18.5 CFlp-SP-CI73T/I73T embryos for HA revealed tufts of HA+ AT2 cells within obliterated saccules. CFlp-SP-CWT/WT controls showed normal developing saccules lined by proSP-C+ cells. Scale bars: 70 μm. (D) TEM of E18.5 CFlp-SP-CI73T/I73T and CFlp-SP-CWT/WT lungs. SP-CWT/WT saccules contained intraluminal surfactant (inset). CFlp-SP-CI73T/I73T lungs contained disrupted saccules filled with poorly differentiated epithelial cells (inset). Scale bars: 10 μm. (E) Representative ×60 immunofluorescence micrographs of E18.5 lungs from CFlp-SP-CI73T/I73T, CFlp-SP-CI73T/WT, and CFlp-SP-CWT mice stained for proSP-C (green) and AQP5 (red), showing loss of AQP5 and increase in proSP-C staining in CFlp-SP-CI73T animals.