Mitophagy-dependent necroptosis contributes to the pathogenesis of COPD
Kenji Mizumura, … , Stefan W. Ryter, Augustine M.K. Choi
Kenji Mizumura, … , Stefan W. Ryter, Augustine M.K. Choi
Published August 1, 2014
Citation Information: J Clin Invest. 2014;124(9):3987-4003. https://doi.org/10.1172/JCI74985.
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Research Article Pulmonology

Mitophagy-dependent necroptosis contributes to the pathogenesis of COPD

Abstract

The pathogenesis of chronic obstructive pulmonary disease (COPD) remains unclear, but involves loss of alveolar surface area (emphysema) and airway inflammation (bronchitis) as the consequence of cigarette smoke (CS) exposure. Previously, we demonstrated that autophagy proteins promote lung epithelial cell death, airway dysfunction, and emphysema in response to CS; however, the underlying mechanisms have yet to be elucidated. Here, using cultured pulmonary epithelial cells and murine models, we demonstrated that CS causes mitochondrial dysfunction that is associated with a reduction of mitochondrial membrane potential. CS induced mitophagy, the autophagy-dependent elimination of mitochondria, through stabilization of the mitophagy regulator PINK1. CS caused cell death, which was reduced by administration of necrosis or necroptosis inhibitors. Genetic deficiency of PINK1 and the mitochondrial division/mitophagy inhibitor Mdivi-1 protected against CS-induced cell death and mitochondrial dysfunction in vitro and reduced the phosphorylation of MLKL, a substrate for RIP3 in the necroptosis pathway. Moreover, Pink1–/– mice were protected against mitochondrial dysfunction, airspace enlargement, and mucociliary clearance (MCC) disruption during CS exposure. Mdivi-1 treatment also ameliorated CS-induced MCC disruption in CS-exposed mice. In human COPD, lung epithelial cells displayed increased expression of PINK1 and RIP3. These findings implicate mitophagy-dependent necroptosis in lung emphysematous changes in response to CS exposure, suggesting that this pathway is a therapeutic target for COPD.

Authors

Kenji Mizumura, Suzanne M. Cloonan, Kiichi Nakahira, Abhiram R. Bhashyam, Morgan Cervo, Tohru Kitada, Kimberly Glass, Caroline A. Owen, Ashfaq Mahmood, George R. Washko, Shu Hashimoto, Stefan W. Ryter, Augustine M.K. Choi

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Figure 4

Mdivi-1 reduces CSE-induced mitophagy and loss of ΔΨm.

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Mdivi-1 reduces CSE-induced mitophagy and loss of ΔΨm. (A) Representativ...
(A) Representative mitochondrial morphology (original magnification, ×120) in Beas-2B cells incubated for 3 hours with Mdivi-1 (50 μM) or vehicle (DMSO) and treated with 20% CSE for 4 hours. Blue: Hoechst 33258 (nucleus); green: Tom20 (mitochondria). Scale bar: 10 μm (A and B). Right panels show enlargement of the yellow-framed areas (scale bar: 2 μm). White outline delineates cell borders. White arrows and arrowheads show mitochondrial fission and perinuclear compaction, respectively. Histogram shows quantification of cells exhibiting mitochondrial fission. Image is representative of 5 images/slide; n = 3 slides/group (A and B). (B) Cumulative detection of mitophagy (original magnification, ×120). Beas-2B cells transfected with mt-mKeima were incubated with Mdivi-1 (50 μM) or vehicle (DMSO) and treated with 20% CSE for 8 hours. Histogram shows quantification of the ratio of high (550:438) signal area to total mitochondrial area. 30 cells/group were analyzed in 3 independent experiments. (C) Immunoblot analysis of ubiquitin in mitochondrial/cytosolic fractions of Beas-2B cells incubated with Mdivi-1 (50 μM) or vehicle (DMSO) and treated with 20% CSE for 6 hours. (D) Flow cytometry of Beas-2B cells labeled with TMRE. Beas-2B cells incubated with Mdivi-1 (50 μM) or vehicle (DMSO) were treated with 20% CSE for 4 hours. The x axis shows the fluorescent signal intensity, and the y axis represents the cell number normalized as a percentage of the maximum (% of max). Data are representative of 3 experiments. Data represent the mean ± SEM (A, B, and D). **P < 0.01 by unpaired, 2-tailed Student’s t test (A, B, and D).