线粒体产生的一氧化氮在线粒体代谢中的功能意义。

Functional implications of nitric oxide produced by mitochondria in mitochondrial metabolism.

作者信息

Giulivi C

机构信息

Department of Molecular Pharmacology and Toxicology, University of Southern California, 1985 Zonal Ave., Los Angeles, CA 90033, USA.

出版信息

Biochem J. 1998 Jun 15;332 ( Pt 3)(Pt 3):673-9. doi: 10.1042/bj3320673.

DOI:10.1042/bj3320673

PMID:9620869

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1219527/

Abstract

The effects of endogenous production of NO., catalysed by the mitochondrial nitric oxide synthase (NOS), on mitochondrial metabolism were studied. The respiratory rates of intact mitochondria in State 4 were decreased by 40% and 28% with succinate and malate-glutamate, respectively, in the presence of L-arginine (L-Arg); conversely, the O2 uptake with NG-methyl-L-arginine (NMMA), a competitive inhibitor of NOS, was increased. The production of NO. and the inhibition of the respiratory rates were dependent on the metabolic state in which mitochondria were maintained: NO. production was probably supported by mitochondrial NADPH, the latter maintained by the energy-dependent transhydrogenase. In addition to the decline in the respiratory rate, an inhibition of ATP synthesis was also observed (40-50%) following supplementation with L-Arg. The dependence of the respiratory rates of mitochondria in State 3 and cytochrome oxidase activities on O2 concentrations with either L-Arg or NMMA indicated that both processes were competitively inhibited by NO. at the cytochrome oxidase level. This inhibition can be explained by the interaction of NO. with cytochrome oxidase at the binuclear centre. The role of NO. as a physiological modulator of cytochrome oxidase is discussed in terms of cellular metabolism.

摘要

研究了由线粒体一氧化氮合酶（NOS）催化内源性产生的一氧化氮（NO.）对线粒体代谢的影响。在L-精氨酸（L-Arg）存在的情况下，完整线粒体在状态4下以琥珀酸和苹果酸-谷氨酸为底物时的呼吸速率分别降低了40%和28%；相反，一氧化氮合酶的竞争性抑制剂NG-甲基-L-精氨酸（NMMA）存在时氧气摄取增加。NO.的产生和呼吸速率的抑制取决于线粒体维持的代谢状态：NO.的产生可能由线粒体NADPH支持，而后者由能量依赖的转氢酶维持。除了呼吸速率下降外，补充L-Arg后还观察到ATP合成受到抑制（40 - 50%）。状态3下线粒体的呼吸速率和细胞色素氧化酶活性对氧气浓度的依赖性，以及L-Arg或NMMA的影响表明，这两个过程在细胞色素氧化酶水平上均受到NO.的竞争性抑制。这种抑制可以通过NO.与细胞色素氧化酶在双核中心的相互作用来解释。从细胞代谢的角度讨论了NO.作为细胞色素氧化酶生理调节剂的作用。

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