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新型线粒体 DNA 突变导致母系遗传非综合征性听力损失。

Novel mitochondrial DNA mutations responsible for maternally inherited nonsyndromic hearing loss.

机构信息

INSERM-U688 Physiopathologie Mitochondriale, Université Victor Segalen Bordeaux 2,146 rue Léo Saignat, Bordeaux, F-33076 France.

出版信息

Hum Mutat. 2012 Apr;33(4):681-9. doi: 10.1002/humu.22023. Epub 2012 Feb 14.

DOI:10.1002/humu.22023
PMID:22241583
Abstract

Some cases of maternally inherited isolated deafness are caused by mtDNA mutations, frequently following an exposure to aminoglycosides. Two mitochondrial genes have been clearly described as being affected by mutations responsible for this pathology: the ribosomal RNA 12S gene and the transfer RNA serine (UCN) gene. A previous study identified several candidate novel mtDNA mutations, localized in a variety of mitochondrial genes, found in patients with no previous treatment with aminoglycosides. Five of these candidate mutations are characterized in the present study. These mutations are localized in subunit ND1 of complex I of the respiratory chain (m.3388C>A [p.MT-ND1:Leu28Met]), the tRNA for Isoleucine (m.4295A>G), subunit COII of complex IV (m.8078G>A [p.MT-CO2:Val165Ile]), the tRNA of Serine 2 (AGU/C) (m.12236G>A), and Cytochrome B, subunit of complex III (m.15077G>A [p.MT-CYB:Glu111Lys]). Cybrid cell lines have been constructed for each of the studied mtDNA mutations and functional studies have been performed to assess the possible consequences of these mutations on mitochondrial bioenergetics. This study shows that a variety of mitochondrial genes, including protein-coding genes, can be responsible for nonsyndromic deafness, and that exposure to aminoglycosides is not required to develop the disease, giving new insights on the molecular bases of this pathology.

摘要

一些母系遗传性孤立性耳聋是由 mtDNA 突变引起的,这些突变通常发生在接触氨基糖苷类药物之后。有两个线粒体基因已被明确描述为受导致这种病理的突变影响:核糖体 RNA 12S 基因和转移 RNA 丝氨酸(UCN)基因。先前的一项研究确定了几种候选的新 mtDNA 突变,这些突变定位于各种线粒体基因中,这些基因存在于未接受过氨基糖苷类药物治疗的患者中。本研究对其中的 5 种候选突变进行了特征描述。这些突变定位于呼吸链复合体 I 的 ND1 亚单位(m.3388C>A [p.MT-ND1:Leu28Met])、异亮氨酸的 tRNA(m.4295A>G)、复合体 IV 的 COII 亚单位(m.8078G>A [p.MT-CO2:Val165Ile])、丝氨酸 2 的 tRNA(AGU/C)(m.12236G>A)和细胞色素 B,复合体 III 的亚单位(m.15077G>A [p.MT-CYB:Glu111Lys])。已经构建了每种研究的 mtDNA 突变的细胞杂交系,并进行了功能研究,以评估这些突变对线粒体生物能学的可能影响。这项研究表明,包括编码蛋白的基因在内的多种线粒体基因都可能导致非综合征性耳聋,并且无需接触氨基糖苷类药物即可引发该疾病,从而为该病理学的分子基础提供了新的见解。

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