NOX4 modulates macrophage phenotype and mitochondrial biogenesis in asbestosis
Chao He, Jennifer L. Larson-Casey, Dana Davis, Vidya Sagar Hanumanthu, Ana Leda F. Longhini, Victor J. Thannickal, Linlin Gu, A. Brent Carter
Chao He, Jennifer L. Larson-Casey, Dana Davis, Vidya Sagar Hanumanthu, Ana Leda F. Longhini, Victor J. Thannickal, Linlin Gu, A. Brent Carter
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Research Article Immunology Pulmonology

NOX4 modulates macrophage phenotype and mitochondrial biogenesis in asbestosis

Abstract

Macrophage activation is implicated in the development of pulmonary fibrosis by generation of profibrotic molecules. Although NADPH oxidase 4 (NOX4) is known to contribute to pulmonary fibrosis, its effects on macrophage activation and mitochondrial redox signaling are unclear. Here, we show that NOX4 is crucial for lung macrophage profibrotic polarization and fibrotic repair after asbestos exposure. NOX4 was elevated in lung macrophages from subjects with asbestosis, and mice harboring a deletion of NOX4 in lung macrophages were protected from asbestos-induced fibrosis. NOX4 promoted lung macrophage profibrotic polarization and increased production of profibrotic molecules that induce collagen deposition. Mechanistically, NOX4 further augmented mitochondrial ROS production and induced mitochondrial biogenesis. Targeting redox signaling and mitochondrial biogenesis prevented the profibrotic polarization of lung macrophages by reducing the production of profibrotic molecules. These observations provide evidence that macrophage NOX4 is a potentially novel therapeutic target to halt the development of asbestos-induced pulmonary fibrosis.

Authors

Chao He, Jennifer L. Larson-Casey, Dana Davis, Vidya Sagar Hanumanthu, Ana Leda F. Longhini, Victor J. Thannickal, Linlin Gu, A. Brent Carter

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Figure 6

Modulation of mitochondrial biogenesis programs profibrotic polarization.

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Modulation of mitochondrial biogenesis programs profibrotic polarization...
(A) PGC-1α mRNA analysis in MH-S lung macrophages transfected with either scrambled or PGC-1α siRNA. Inset, immunoblot of PGC-1α in MH-S lung macrophages transfected with either scrambled or PGC-1α siRNA. TFAM mRNA analysis in MH-S lung macrophages transfected with either scrambled or PGC-1α siRNA with empty or NOX4 vector. (B) FIZZ1 mRNA analysis in MH-S lung macrophages transfected with either scrambled or PGC-1α siRNA with empty or NOX4 vector. (C) Active TGF-β1 in conditioned medium of MH-S lung macrophages transfected with either scrambled or PGC-1α siRNA with empty or NOX4 vector. (D) Immunoblot of phosphorylated Drp-1 (p–Drp-1) in mitochondria of lung macrophages from normal (n = 4) or asbestosis subjects (n = 4). (E) PGC-1α mRNA analysis in MH-S lung macrophages expressing empty or NOX4 vector in the presence or absence of Mdivi-1 (20 μM). (F) TGF-β1 firefly luciferase activity in MH-S lung macrophages expressing empty or NOX4 vector in the presence or absence of Mdivi-1 (20 μM). Results are shown as firefly luciferase normalized to Renilla luciferase. (G) Active TGF-β1 in conditioned medium of BMDMs from WT and Nox4–/– mice in the presence or absence of Mdivi-1 and chrysotile asbestos. *P < 0.05, **P < 0.01, ***P < 0.001. Values shown as mean ± SEM. Two-tailed t test or 1-way ANOVA followed by Tukey’s multiple-comparisons test was used. Each dot represents 1 human subject, 1 animal, or 1 sample. All in vitro experiments, including Western blotting, were repeated independently thrice, and representative blots are shown.