An SFTPC BRICHOS mutant links epithelial ER stress and spontaneous lung fibrosis
Jeremy Katzen, … , Robin R. Deterding, Michael F. Beers
Jeremy Katzen, … , Robin R. Deterding, Michael F. Beers
Published February 5, 2019
Citation Information: JCI Insight. 2019;4(6):e126125. https://doi.org/10.1172/jci.insight.126125.
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Research Article Pulmonology

An SFTPC BRICHOS mutant links epithelial ER stress and spontaneous lung fibrosis

Abstract

Alveolar type 2 (AT2) cell endoplasmic reticulum (ER) stress is a prominent feature in adult and pediatric interstitial lung disease (ILD and ChILD), but in vivo models linking AT2 cell ER stress to ILD have been elusive. Based on a clinical ChILD case, we identified a critical cysteine residue in the surfactant protein C gene (SFTPC) BRICHOS domain whose mutation induced ER stress in vitro. To model this in vivo, we generated a knockin mouse model expressing a cysteine-to-glycine substitution at codon 121 (C121G) in the Sftpc gene. SftpcC121G expression during fetal development resulted in a toxic gain-of-function causing fatal postnatal respiratory failure from disrupted lung morphogenesis. Induced SftpcC121G expression in adult mice resulted in an ER-retained pro-protein causing AT2 cell ER stress. SftpcC121G AT2 cells were a source of cytokines expressed in concert with development of polycellular alveolitis. These cytokines were subsequently found in a high-dimensional proteomic screen of bronchoalveolar lavage fluid from ChILD patients with the same class of SFTPC mutations. Following alveolitis resolution, SftpcC121G mice developed spontaneous pulmonary fibrosis and restrictive lung impairment. This model provides proof of concept linking AT2 cell ER stress to fibrotic lung disease coupled with translationally relevant biomarkers.

Authors

Jeremy Katzen, Brandie D. Wagner, Alessandro Venosa, Meghan Kopp, Yaniv Tomer, Scott J. Russo, Alvis C. Headen, Maria C. Basil, James M. Stark, Surafel Mulugeta, Robin R. Deterding, Michael F. Beers

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Figure 3

In vivo inducible expression of the SftpcC121G mutation in adult mice causes an ER-retained SP-C pro-protein.

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In vivo inducible expression of the SftpcC121G mutation in adult mice ca...
(A) Strategy for generation of tamoxifen-inducible mice in which tamoxifen treatment of the SftpcC121G/C121G R26Cre line results in removal of an inhibitory intronic PGK-neo cassette. (B) qRT-PCR analysis for Sftpc expression in purified AT2 cells from homozygous SftpcC121Gneo/C121Gneo and SftpcC121G/C121G R26Cre mice at 7 days after treatment with tamoxifen. Data normalized to 18S RNA are expressed as Sftpc mRNA as a fraction of SftpcWT R26Cre mice. (C) Western blotting of BALF large aggregate fraction from SftpcC121G/C121G R26Cre and SftpcWT R26Cre mice on day 7 after tamoxifen showing the absence of mature SP-C (mSP-C) in the SftpcC121G/C121G R26Cre mice. (D) Western blotting of AT2 cell lysates from SftpcWT R26Cre or SftpcC121G/C121G R26Cre mice 7 days after tamoxifen shows SftpcC121G/C121G R26Cre AT2 cells with an ER retained pro-protein (arrowhead) without posttranslational palmitoylation (arrow) or processing intermediates (brackets) observed in SftpcWT R26Cre AT2 cells. (E) Double-label immunofluorescence staining of whole lung sections for proSP-C (red) and the ER marker KDEL demonstrates reticular proSP-C staining with significant colocalization with KDEL in SftpcC121G/C121G R26Cre mice, compared with the punctate pattern of proSP-C staining distinct from KDEL observed in the SftpcWT R26Cre mice (original magnification, ×60).