Beyond the TCA cycle: new insights into mitochondrial calcium regulation of oxidative phosphorylation

氧化磷酸化 Uniporter公司 线粒体 细胞生物学 氧化应激 磷酸化 变构调节 生物 平衡 生物化学 钙信号传导 ATP合酶 底物水平磷酸化 化学 胞浆 细胞内 有机化学
作者
Sandra Lee,Hannah E. Duron,Dipayan Chaudhuri
出处
期刊:Biochemical Society Transactions [Portland Press]
卷期号:51 (4): 1661-1673 被引量:55
标识
DOI:10.1042/bst20230012
摘要

While mitochondria oxidative phosphorylation is broadly regulated, the impact of mitochondrial Ca2+ on substrate flux under both physiological and pathological conditions is increasingly being recognized. Under physiologic conditions, mitochondrial Ca2+ enters through the mitochondrial Ca2+ uniporter and boosts ATP production. However, maintaining Ca2+ homeostasis is crucial as too little Ca2+ inhibits adaptation to stress and Ca2+ overload can trigger cell death. In this review, we discuss new insights obtained over the past several years expanding the relationship between mitochondrial Ca2+ and oxidative phosphorylation, with most data obtained from heart, liver, or skeletal muscle. Two new themes are emerging. First, beyond boosting ATP synthesis, Ca2+ appears to be a critical determinant of fuel substrate choice between glucose and fatty acids. Second, Ca2+ exerts local effects on the electron transport chain indirectly, not via traditional allosteric mechanisms. These depend critically on the transporters involved, such as the uniporter or the Na+–Ca2+ exchanger. Alteration of these new relationships during disease can be either compensatory or harmful and suggest that targeting mitochondrial Ca2+ may be of therapeutic benefit during diseases featuring impairments in oxidative phosphorylation.
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