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<a href="http://doi.org/10.1016/j.yjmcc.2021.07.008" target="_blank" rel="noreferrer noopener">http://doi.org/10.1016/j.yjmcc.2021.07.008</a>
ISSN
1095-8584
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Update Year & Number
August 2021 List
NEOMED College
NEOMED College of Medicine
NEOMED Department
Department of Integrative Medical Sciences
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Title
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Reperfusion mediates heme impairment with increased protein cysteine sulfonation of mitochondrial complex III in the post-ischemic heart.
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Journal of Molecular and Cellular Cardiology
Date
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2021
2021-07-28
Subject
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Complex III; Cysteine sulfonation; Heme damage; Myocardial ischemia and reperfusion; Oxidative stress; Protein structure
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Chen C; Kang PT; Zhang L; Xiao K; Zweier JL; Chilian WM; Chen Y-R
Description
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A serious consequence of myocardial ischemia-reperfusion injury (I/R) is oxidative damage, which causes mitochondrial dysfunction. The cascading ROS can propagate and potentially induce heme bleaching and protein cysteine sulfonation (PrSO 3 H) of the mitochondrial electron transport chain. Herein we studied the mechanism of I/R-mediated irreversible oxidative injury of complex III in mitochondria from rat hearts subjected to 30-min of ischemia and 24-h of reperfusion in vivo. In the I/R region, the catalytic activity of complex III was significantly impaired. Spectroscopic analysis indicated that I/R mediated the destruction of hemes b and c + c 1 in the mitochondria, supporting I/R-mediated complex III impairment. However, no significant impairment of complex III activity and heme damage were observed in mitochondria from the risk region of rat hearts subjected only to 30-min ischemia, despite a decreased state 3 respiration. In the I/R mitochondria, carbamidomethylated C 122 /C 125 of cytochrome c 1 via alkylating complex III with a down regulation of HCCS was exclusively detected, supporting I/R-mediated thioether defect of heme c 1 . LC-MS/MS analysis showed that I/R mitochondria had intensely increased complex III PrSO 3 H levels at the C 236 ligand of the [2Fe2S] cluster of the Rieske iron‑sulfur protein (uqcrfs1), thus impairing the electron transport activity. MS analysis also indicated increased PrSO 3 H of the hinge protein at C 65 and of cytochrome c 1 at C 140 and C 220 , which are confined in the intermembrane space. MS analysis also showed that I/R extensively enhanced the PrSO 3 H of the core 1 (uqcrc1) and core 2 (uqcrc2) subunits in the matrix compartment, thus supporting the conclusion that complex III releases ROS to both sides of the inner membrane during reperfusion. Analysis of ischemic mitochondria indicated a modest reduction from the basal level of complex III PrSO 3 H detected in the mitochondria of sham control hearts, suggesting that the physiologic hyperoxygenation and ROS overproduction during reperfusion mediated the enhancement of complex III PrSO 3 H. In conclusion, reperfusion-mediated heme damage with increased PrSO 3 H controls oxidative injury to complex III and aggravates mitochondrial dysfunction in the post-ischemic heart. (Copyright © 2018. Published by Elsevier Ltd.)
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<a href="http://doi.org/10.1016/j.yjmcc.2021.07.008" target="_blank" rel="noreferrer noopener">10.1016/j.yjmcc.2021.07.008</a>
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journalArticle
2021
August 2021 List
Chen C
Chen Y-R
Chilian WM
Complex III
Cysteine sulfonation
Department of Integrative Medical Sciences
Heme damage
Journal of molecular and cellular cardiology
journalArticle
Kang PT
Myocardial ischemia and reperfusion
NEOMED College of Medicine
Oxidative Stress
Protein Structure
Xiao K
Zhang L
Zweier JL