Mitophagy-dependent macrophage reprogramming protects against kidney fibrosis
Divya Bhatia, Kuei-Pin Chung, Kiichi Nakahira, Edwin Patino, Michelle C. Rice, Lisa K. Torres, Thangamani Muthukumar, Augustine M.K. Choi, Oleh M. Akchurin, Mary E. Choi
Divya Bhatia, Kuei-Pin Chung, Kiichi Nakahira, Edwin Patino, Michelle C. Rice, Lisa K. Torres, Thangamani Muthukumar, Augustine M.K. Choi, Oleh M. Akchurin, Mary E. Choi
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Research Article Nephrology

Mitophagy-dependent macrophage reprogramming protects against kidney fibrosis

Abstract

Mitophagy, by maintaining mitochondrial quality control, plays a key role in maintaining kidney function and is impaired in pathologic states. Macrophages are well known for their pathogenic role in kidney fibrosis. Here, we report that PINK1/Parkin-mediated mitophagy in macrophages is compromised in experimental and human kidney fibrosis. We demonstrate downregulation of mitophagy regulators mitofusin-2 (MFN2) and Parkin downstream of PINK1 in kidney fibrosis. Loss of either Pink1 or Prkn promoted renal extracellular matrix accumulation and frequency of profibrotic/M2 macrophages. Pink1–/– or Prkn–/– BM-derived macrophages (BMDMs) showed enhanced expression of rictor. Mitochondria from TGF-β1–treated Pink1–/– BMDMs exhibited increased superoxide levels, along with reduced respiration and ATP production. In addition, mitophagy in macrophages involves PINK1-mediated phosphorylation of downstream MFN2, MFN2-facilitated recruitment of Parkin to damaged mitochondria, and macrophage-specific deletion of Mfn2 aggravates kidney fibrosis. Moreover, mitophagy regulators were downregulated in human CKD kidney and TGF-β1–treated human renal macrophages, whereas Mdivi1 treatment suppressed mitophagy mediators and promoted fibrotic response. Taken together, our study is the first to our knowledge to demonstrate that macrophage mitophagy plays a protective role against kidney fibrosis via regulating the PINK1/MFN2/Parkin-mediated pathway.

Authors

Divya Bhatia, Kuei-Pin Chung, Kiichi Nakahira, Edwin Patino, Michelle C. Rice, Lisa K. Torres, Thangamani Muthukumar, Augustine M.K. Choi, Oleh M. Akchurin, Mary E. Choi

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Figure 7

PINK1 mediates macrophage mitochondrial respiration during kidney fibrosis.

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PINK1 mediates macrophage mitochondrial respiration during kidney fibros...
(A) Pink1+/+ and Pink1–/– BMDMs were cultured in the absence (–, n = 5 per group) or presence (+, n = 5 per group) of TGF-β1 (5 ng/mL) for 24 hours. Box-and-whisker plots displaying the first and the third quartiles, with the line within the box indicating the median value (upper panel). Oxygen consumption rate (OCR) under basal conditions followed by the sequential measurements after addition of oligomycin, FCCP, rotenone, or antimycin A were determined using Mito Stress test. Dot plots show mean ± SEM. (B) Frequency of mitochondrial-derived superoxide detected in Pink1+/+ and Pink1–/– TGF-β1–treated BMDMs (n = 3 per group) using MitoSox staining by flow cytometry. (C) Representative transmission electron microscopy (TEM) images displaying renal macrophages (labeled as M; ×12,000 magnification; scale bars: 2 μm) and their mitochondria (pointed by arrow, ×80,000 magnification; scale bars: 200 nm) in Pink1+/+ and Pink1–/– mice after 28 days of control (Ctl) or adenine (AD) diet. Abnormal mitochondria counted from 4 (Ctl) or 7 (AD) renal macrophages from n = 3 mice per group. Data are mean ± SEM. *P < 0.05. **P < 0.01, ***P < 0.001 analyzed by 1-way ANOVA (A, upper panel, and C) or Student’s unpaired 2-tailed t test (A, lower panels, and B).