Targeting an antioxidant to mitochondria decreases cardiac ischemia‐reperfusion injury

线粒体 抗氧化剂 药理学 泛醇 氧化应激 氧化磷酸化 体内 再灌注损伤 生物化学 缺血 化学 医学 生物 细胞色素c 辅酶Q-细胞色素c还原酶 内科学 生物技术
作者
Victoria J. Adlam,Joanne C. Harrison,Carolyn M. Porteous,Andrew M. James,Robin A.J. Smith,Michael P. Murphy,Ivan A. Sammut
出处
期刊:The FASEB Journal [Wiley]
卷期号:19 (9): 1088-1095 被引量:602
标识
DOI:10.1096/fj.05-3718com
摘要

Mitochondrial oxidative damage contributes to a wide range of pathologies, including cardiovascular disorders and neurodegenerative diseases. Therefore, protecting mitochondria from oxidative damage should be an effective therapeutic strategy. However, conventional antioxidants have limited efficacy due to the difficulty of delivering them to mitochondria in situ. To overcome this problem, we developed mitochondria-targeted antioxidants, typified by MitoQ, which comprises a lipophilic triphenylphosphonium (TPP) cation covalently attached to a ubiquinol antioxidant. Driven by the large mitochondrial membrane potential, the TPP cation concentrates MitoQ several hundred-fold within mitochondria, selectively preventing mitochondrial oxidative damage. To test whether MitoQ was active in vivo, we chose a clinically relevant form of mitochondrial oxidative damage: cardiac ischemia-reperfusion injury. Feeding MitoQ to rats significantly decreased heart dysfunction, cell death, and mitochondrial damage after ischemia-reperfusion. This protection was due to the antioxidant activity of MitoQ within mitochondria, as an untargeted antioxidant was ineffective and accumulation of the TPP cation alone gave no protection. Therefore, targeting antioxidants to mitochondria in vivo is a promising new therapeutic strategy in the wide range of human diseases such as Parkinson's disease, diabetes, and Friedreich's ataxia where mitochondrial oxidative damage underlies the pathology.
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