Production of Reactive Oxygen Species in Brain Mitochondria: Contribution by Electron Transport Chain and Non–Electron Transport Chain Sources

线粒体 活性氧 呼吸链 氧化应激 线粒体ROS 线粒体呼吸链 电子传递复合体Ⅰ 超氧化物 细胞生物学 生物化学 电子传输链 NAD+激酶 氧化磷酸化 生物 辅酶Q-细胞色素c还原酶 脱氢酶 化学 细胞色素c
作者
Vera Ádám‐Vizi
出处
期刊:Antioxidants & Redox Signaling [Mary Ann Liebert, Inc.]
卷期号:7 (9-10): 1140-1149 被引量:427
标识
DOI:10.1089/ars.2005.7.1140
摘要

Overwhelming evidence has accumulated indicating that oxidative stress is a crucial factor in the pathogenesis of neurodegenerative diseases. The major site of production of superoxide, the primary reactive oxygen species (ROS), is considered to be the respiratory chain in the mitochondria, but the exact mechanism and the precise location of the physiologically relevant ROS generation within the respiratory chain have not been disclosed as yet. Studies performed with isolated mitochondria have located ROS generation on complex I and complex III, respectively, depending on the substrates or inhibitors used to fuel or inhibit respiration. A more "physiological" approach is to address ROS generation of in situ mitochondria, which are present in their normal cytosolic environment. Hydrogen peroxide formation in mitochondria in situ in isolated nerve terminals is enhanced when complex I, complex III, or complex IV is inhibited. However, to induce a significant increase in ROS production, complex III and complex IV have to be inhibited by >70%, which raises doubts as to the physiological importance of ROS generation by these complexes. In contrast, complex I inhibition to a small degree is sufficient to enhance ROS generation, indicating that inhibition of complex I by ∼25–30% observed in postmortem samples of substantia nigra from patients suffering from Parkinson's disease could be important in inducing oxidative stress. Recently, it has been described that a key Krebs cycle enzyme, α-ketoglutarate dehydrogenase (α-KGDH), is also able to produce ROS. ROS formation by α-KGDH is regulated by the NADH/NAD+ ratio, suggesting that this enzyme could substantially contribute to generation of oxidative stress due to inhibition of complex I. As α-KGDH is not only a generator but also a target of ROS, it is proposed that α-KGDH is a key factor in a vicious cycle by which oxidative stress is induced and promoted in nerve terminals.Antioxid. Redox Signal. 7, 1140–1149.
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