Mammalian mitochondrial iron-sulfur cluster biogenesis and transfer and related human diseases.

Wenxin Zhang, Li Xu, Hongting Zhao, Kuanyu Li
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引用次数: 3

Abstract

As a cofactor, iron-sulfur (Fe-S) cluster binds to proteins or enzymes that play important roles in various important biological processes, including DNA synthesis and repair, mitochondrial function, gene transcription and translation. In mammals, the core components involved in Fe-S cluster biosynthesis are considered to include the scaffold protein ISCU, cysteine desulfurase NFS1 and its accessory proteins ISD11 and ACP, and frataxin (FXN). Proteins involved in Fe-S cluster transfer have been found to include HSC20/HSPA9, as chaperone system, and Fe-S cluster carriers. The biosynthesis and transfer of Fe-S clusters to Fe-S recipients require fine-tune regulation. Recently, significant progress has been made in the structure and mechanism of mitochondrial Fe-S biosynthesis and transfer. Based on, especially, the development of DNA sequencing technology, bioinformatics, and gene editing technology, diseases caused by mutations of Fe-S cluster-related genes have been revealed in recent years, promoting the rapid development in the field of Fe-S and human health. This review focuses on the function of genes involved in Fe-S cluster biosynthesis and transfer and on the diseases caused by the mutations of the related genes. Finally, some questions we are facing are raised, new hypotheses presented, and the perspectives discussed.

Abstract Image

Abstract Image

哺乳动物线粒体铁硫簇的生物发生和转移及相关的人类疾病。
铁硫(Fe-S)簇作为一种辅助因子,结合在多种重要生物过程中起重要作用的蛋白质或酶,包括DNA合成和修复、线粒体功能、基因转录和翻译。在哺乳动物中,参与Fe-S簇生物合成的核心成分被认为包括支架蛋白ISCU、半胱氨酸脱硫酶NFS1及其辅助蛋白ISD11和ACP,以及frataxin (FXN)。参与Fe-S簇转移的蛋白包括作为伴侣系统的HSC20/HSPA9和Fe-S簇载体。Fe-S簇的生物合成和向Fe-S受体的转移需要精细调节。近年来,在线粒体Fe-S生物合成和转移的结构和机制方面取得了重大进展。特别是基于DNA测序技术、生物信息学和基因编辑技术的发展,近年来Fe-S簇相关基因突变引起的疾病不断被发现,促进了Fe-S与人类健康领域的快速发展。本文就Fe-S簇生物合成和转移相关基因的功能及相关基因突变引起的疾病作一综述。最后,提出了我们面临的一些问题,提出了新的假设,并讨论了观点。
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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CiteScore
1.30
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0.00%
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117
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