COA5 has an essential role in the early stage of mitochondrial complex IV assembly

Jia Xin Tang, Alfredo Cabrera-Orefice, Jana Meisterknecht, Lucie Taylor, Geoffray Monteuuis, Maria Ekman Stensland, Adam Szczepanek, Karen L Stals, James Davison, Langping He, Sila Hopton, Tuula A Nyman, Christopher B Jackson, Angela Pyle, Monika Winter, Ilka Wittig, Robert W Taylor
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Abstract

Pathogenic variants in cytochrome c oxidase assembly factor 5 (COA5), a proposed complex IV (CIV) assembly factor, have been shown to cause clinical mitochondrial disease with two siblings affected by neonatal hypertrophic cardiomyopathy manifesting a rare, homozygous COA5 missense variant (NM_001008215.3: c.157G>C, p.Ala53Pro). The most striking observation in the affected individuals was an isolated impairment in the early stage of mitochondrial CIV assembly. In this study, we report an unrelated family in who we have identified the same COA5 variant with patient-derived fibroblasts and skeletal muscle biopsies replicating an isolated CIV deficiency. A CRISPR/Cas9-edited homozygous COA5 knockout U2OS cell line with similar biochemical profile was generated to interrogate the functional role of the human COA5 protein. Mitochondrial complexome profiling pinpointed a role for COA5 in early CIV assembly, more specifically, its involvement in the stage between MTCO1 maturation and the incorporation of MTCO2. We therefore propose that the COA5 protein plays an essential role for the biogenesis of MTCO2 and its integration into the early CIV assembly intermediate for downstream assembly of the functional holocomplex.
COA5 在线粒体复合体 IV 组装的早期阶段发挥着重要作用
细胞色素 c 氧化酶组装因子 5(COA5)是一种拟议的复合体 IV(CIV)组装因子,其致病变异已被证明可导致临床线粒体疾病,两个患有新生儿肥厚型心肌病的兄弟姐妹表现出罕见的同基因 COA5 错义变异(NM_001008215.3:c.157G>C, p.Ala53Pro)。在受影响的个体中,最显著的观察结果是线粒体 CIV 组装的早期阶段出现了孤立的损伤。在本研究中,我们报告了一个非亲属关系的家族,我们在该家族中发现了相同的 COA5 变体,患者来源的成纤维细胞和骨骼肌活检复制了孤立的 CIV 缺乏症。通过 CRISPR/Cas9 编辑的同源 COA5 基因敲除 U2OS 细胞系具有相似的生化特征,以研究人类 COA5 蛋白的功能作用。线粒体复合体谱分析确定了 COA5 在早期 CIV 组装中的作用,更具体地说,它参与了 MTCO1 成熟和 MTCO2 结合之间的阶段。因此,我们认为 COA5 蛋白在 MTCO2 的生物生成以及将其整合到早期 CIV 组装中间体中,从而在下游组装功能性全复合体的过程中起着至关重要的作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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