细胞色素 c 氧化酶核编码亚基在健康和疾病中的作用。
Role of cytochrome c oxidase nuclear-encoded subunits in health and disease.
机构信息
Department of Bioenergetics, Institute of Physiology CAS, Prague, Czech Republic.
出版信息
Physiol Res. 2020 Dec 22;69(6):947-965. doi: 10.33549/physiolres.934446. Epub 2020 Nov 2.
Abstract
Cytochrome c oxidase (COX), the terminal enzyme of mitochondrial electron transport chain, couples electron transport to oxygen with generation of proton gradient indispensable for the production of vast majority of ATP molecules in mammalian cells. The review summarizes current knowledge of COX structure and function of nuclear-encoded COX subunits, which may modulate enzyme activity according to various conditions. Moreover, some nuclear-encoded subunits posess tissue-specific and development-specific isoforms, possibly enabling fine-tuning of COX function in individual tissues. The importance of nuclear-encoded subunits is emphasized by recently discovered pathogenic mutations in patients with severe mitopathies. In addition, proteins substoichiometrically associated with COX were found to contribute to COX activity regulation and stabilization of the respiratory supercomplexes. Based on the summarized data, a model of three levels of quaternary COX structure is postulated. Individual structural levels correspond to subunits of the i) catalytic center, ii) nuclear-encoded stoichiometric subunits and iii) associated proteins, which may constitute several forms of COX with varying composition and differentially regulated function.
摘要
细胞色素 c 氧化酶(COX)是线粒体电子传递链的末端酶,它将电子传递与氧气结合,产生质子梯度,这对于哺乳动物细胞中绝大多数 ATP 分子的产生是必不可少的。该综述总结了核编码 COX 亚基的 COX 结构和功能的最新知识,这些亚基可以根据各种条件调节酶活性。此外,一些核编码亚基具有组织特异性和发育特异性同工型,可能能够在单个组织中精细调节 COX 功能。最近在患有严重线粒体疾病的患者中发现的致病性突变强调了核编码亚基的重要性。此外,还发现与 COX 亚硫酸氢盐缔合的蛋白质有助于 COX 活性调节和呼吸超级复合物的稳定。基于总结的数据,提出了 COX 四级结构的三个层次模型。单个结构层次对应于 i)催化中心、ii)核编码计量亚基和 iii)相关蛋白的亚基,这些亚基可能构成具有不同组成和不同调节功能的几种 COX 形式。
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