Attenuation of lung fibrosis in mice with a clinically relevant inhibitor of glutathione-S-transferase π
David H. McMillan, … , Vikas Anathy, Yvonne M.W. Janssen-Heininger
David H. McMillan, … , Vikas Anathy, Yvonne M.W. Janssen-Heininger
Published June 2, 2016
Citation Information: JCI Insight. 2016;1(8):e85717. https://doi.org/10.1172/jci.insight.85717.
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Research Article Pulmonology Therapeutics

Attenuation of lung fibrosis in mice with a clinically relevant inhibitor of glutathione-S-transferase π

Abstract

Idiopathic pulmonary fibrosis (IPF) is a debilitating lung disease characterized by excessive collagen production and fibrogenesis. Apoptosis in lung epithelial cells is critical in IPF pathogenesis, as heightened loss of these cells promotes fibroblast activation and remodeling. Changes in glutathione redox status have been reported in IPF patients. S-glutathionylation, the conjugation of glutathione to reactive cysteines, is catalyzed in part by glutathione-S-transferase π (GSTP). To date, no published information exists linking GSTP and IPF to our knowledge. We hypothesized that GSTP mediates lung fibrogenesis in part through FAS S-glutathionylation, a critical event in epithelial cell apoptosis. Our results demonstrate that GSTP immunoreactivity is increased in the lungs of IPF patients, notably within type II epithelial cells. The FAS-GSTP interaction was also increased in IPF lungs. Bleomycin- and AdTGFβ-induced increases in collagen content, α-SMA, FAS S-glutathionylation, and total protein S-glutathionylation were strongly attenuated in Gstp–/– mice. Oropharyngeal administration of the GSTP inhibitor, TLK117, at a time when fibrosis was already apparent, attenuated bleomycin- and AdTGFβ-induced remodeling, α-SMA, caspase activation, FAS S-glutathionylation, and total protein S-glutathionylation. GSTP is an important driver of protein S-glutathionylation and lung fibrosis, and GSTP inhibition via the airways may be a novel therapeutic strategy for the treatment of IPF.

Authors

David H. McMillan, Jos L.J. van der Velden, Karolyn G. Lahue, Xi Qian, Robert W. Schneider, Martina S. Iberg, James D. Nolin, Sarah Abdalla, Dylan T. Casey, Kenneth D. Tew, Danyelle M. Townsend, Colin J. Henderson, C. Roland Wolf, Kelly J. Butnor, Douglas J. Taatjes, Ralph C. Budd, Charles G. Irvin, Albert van der Vliet, Stevenson Flemer, Vikas Anathy, Yvonne M.W. Janssen-Heininger

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Figure 7

TLK117-mediated GSTP inhibition attenuates AdTGFβ-induced caspase activation and protein S-glutathionylation.

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TLK117-mediated GSTP inhibition attenuates AdTGFβ-induced caspase activa...
Wild-type mice were treated with AdTGFβ and subsequently with TLK117, as described in Figure 5A. (A and B) Measurement of caspase-3 and -8 activity in mouse lung homogenates. (C) Measurement of total PSSG with a modified DTNB assay. (AC) *P < 0.05 relative to AdCtrl group, †P < 0.05 relative to 14-day AdTGFβ group, ‡P < 0.05 relative to 28-day AdTGFβ/vehicle group by 1-way ANOVA with a Tukey post-test. Shown are pooled data from 2 independent experiments (n = 5–16 per group). (D) Assessment of FAS-SSG by immunoprecipitation of total PSSG and Western blot for FAS. (E) Assessment of FAS-GSTP interaction by immunoprecipitation of FAS from whole-lung homogenates and detection of GSTP by Western blot. Significant differences between 28-day AdTGFβ-treated vehicle and TLK117 groups were assessed by densitometric analysis. *P < 0.05 by 2-tailed unpaired Student’s t test (n = 3 per group for D and n = 3–5 per group for E). The data shown in D and E are representative of 1 of 2 independent experiments. GSTP, glutathione-S-transferase π; FAS-SSG, S-glutathionylated FAS; AdCtrl, control adenovirus; AdTGFβ, adenovirus expressing active TGF-β1; GSH, glutathione; DTT, dithiothreitol; WB, Western blot; IgG, immunoglobulin control.