Animal Models of Mitochondrial Diseases Associated with Nuclear Gene Mutations.

IF 2 4区 生物学 Q4 CELL BIOLOGY Acta Naturae Pub Date : 2023-10-01 DOI:10.32607/actanaturae.25442
O A Averina, S A Kuznetsova, O A Permyakov, P V Sergiev
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Abstract

Mitochondrial diseases (MDs) associated with nuclear gene mutations are part of a large group of inherited diseases caused by the suppression of energy metabolism. These diseases are of particular interest, because nuclear genes encode not only most of the structural proteins of the oxidative phosphorylation system (OXPHOS), but also all the proteins involved in the OXPHOS protein import from the cytoplasm and their assembly in mitochondria. Defects in any of these proteins can lead to functional impairment of the respiratory chain, including dysfunction of complex I that plays a central role in cellular respiration and oxidative phosphorylation, which is the most common cause of mitopathologies. Mitochondrial diseases are characterized by an early age of onset and a progressive course and affect primarily energy-consuming tissues and organs. The treatment of MDs should be initiated as soon as possible, but the diagnosis of mitopathologies is extremely difficult because of their heterogeneity and overlapping clinical features. The molecular pathogenesis of mitochondrial diseases is investigated using animal models: i.e. animals carrying mutations causing MD symptoms in humans. The use of mutant animal models opens new opportunities in the study of genes encoding mitochondrial proteins, as well as the molecular mechanisms of mitopathology development, which is necessary for improving diagnosis and developing approaches to drug therapy. In this review, we present the most recent information on mitochondrial diseases associated with nuclear gene mutations and animal models developed to investigate them.

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与核基因突变有关的线粒体疾病动物模型。
与核基因突变相关的线粒体疾病(MDs)是一大类因能量代谢受抑制而导致的遗传性疾病的一部分。这些疾病特别引人关注,因为核基因不仅编码氧化磷酸化系统(OXPHOS)的大部分结构蛋白,还编码参与从细胞质导入 OXPHOS 蛋白并在线粒体中组装的所有蛋白。其中任何一种蛋白质的缺陷都会导致呼吸链的功能受损,包括在细胞呼吸和氧化磷酸化中发挥核心作用的复合体 I 的功能障碍,这也是导致线粒体病变的最常见原因。线粒体疾病的特点是发病年龄早,病程呈进行性,主要影响耗能组织和器官。对线粒体疾病的治疗应尽早开始,但由于其异质性和临床特征的重叠性,线粒体病变的诊断极为困难。线粒体疾病的分子发病机制是通过动物模型来研究的:即携带导致人类 MD 症状的突变基因的动物。突变动物模型的使用为研究编码线粒体蛋白的基因以及线粒体病理学发展的分子机制提供了新的机会,这对于改善诊断和开发药物治疗方法是非常必要的。在这篇综述中,我们将介绍与核基因突变相关的线粒体疾病以及为研究这些疾病而开发的动物模型的最新信息。
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来源期刊
Acta Naturae
Acta Naturae 农林科学-林学
CiteScore
3.50
自引率
5.00%
发文量
0
审稿时长
>12 weeks
期刊介绍: Acta Naturae is an international journal on life sciences based in Moscow, Russia. Our goal is to present scientific work and discovery in molecular biology, biochemistry, biomedical disciplines and biotechnology. These fields represent the most important priorities for the research and engineering development both in Russia and worldwide. Acta Naturae is also a periodical for those who are curious in various aspects of biotechnological business, innovations in pharmaceutical areas, intellectual property protection and social consequences of scientific progress. The journal publishes analytical industrial surveys focused on the development of different spheres of modern life science and technology. Being a radically new and totally unique journal in Russia, Acta Naturae is useful to both representatives of fundamental research and experts in applied sciences.
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