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USMG5 阿什肯纳兹犹太创始人突变破坏线粒体复合物 V 二聚化和 ATP 合成。

USMG5 Ashkenazi Jewish founder mutation impairs mitochondrial complex V dimerization and ATP synthesis.

机构信息

Department of Neurology, H. Houston Merritt Neuromuscular Research Center, Columbia University Medical Center, New York, NY, USA.

Mitochondrial Medicine Frontier Program, Division of Human Genetics, Children's Hospital of Philadelphia, Philadelphia, PA, USA.

出版信息

Hum Mol Genet. 2018 Oct 1;27(19):3305-3312. doi: 10.1093/hmg/ddy231.

DOI:10.1093/hmg/ddy231
PMID:29917077
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6140788/
Abstract

Leigh syndrome is a frequent, heterogeneous pediatric presentation of mitochondrial oxidative phosphorylation (OXPHOS) disease, manifesting with psychomotor retardation and necrotizing lesions in brain deep gray matter. OXPHOS occurs at the inner mitochondrial membrane through the integrated activity of five protein complexes, of which complex V (CV) functions in a dimeric form to directly generate adenosine triphosphate (ATP). Mutations in several different structural CV subunits cause Leigh syndrome; however, dimerization defects have not been associated with human disease. We report four Leigh syndrome subjects from three unrelated Ashkenazi Jewish families harboring a homozygous splice-site mutation (c.87 + 1G>C) in a novel CV subunit disease gene, USMG5. The Ashkenazi population allele frequency is 0.57%. This mutation produces two USMG5 transcripts, wild-type and lacking exon 3. Fibroblasts from two Leigh syndrome probands had reduced wild-type USMG5 mRNA expression and undetectable protein. The mutation did not alter monomeric CV expression, but reduced both CV dimer expression and ATP synthesis rate. Rescue with wild-type USMG5 cDNA in proband fibroblasts restored USMG5 protein, increased CV dimerization and enhanced ATP production rate. These data demonstrate that a recurrent USMG5 splice-site founder mutation in the Ashkenazi Jewish population causes autosomal recessive Leigh syndrome by reduction of CV dimerization and ATP synthesis.

摘要

Leigh 综合征是一种常见的、异质性的儿童期线粒体氧化磷酸化(OXPHOS)疾病表现,其特征为精神运动发育迟缓及大脑深部灰质的坏死性病变。OXPHOS 在线粒体的内膜上通过五个蛋白复合物的整合活性发生,其中复合物 V(CV)以二聚体的形式发挥作用,直接生成三磷酸腺苷(ATP)。几个不同结构的 CV 亚基的突变可导致 Leigh 综合征;然而,二聚体缺陷尚未与人类疾病相关联。我们报告了三个无关联的 Ashkenazi 犹太家族的四个 Leigh 综合征患者,他们均携带一种新型 CV 亚基疾病基因 USMG5 的纯合剪接位点突变(c.87+1G>C)。Ashkenazi 人群的等位基因频率为 0.57%。该突变产生两种 USMG5 转录本,野生型和缺少外显子 3。来自两个 Leigh 综合征先证者的成纤维细胞中野生型 USMG5 mRNA 表达减少,且蛋白无法检出。该突变并未改变单体 CV 的表达,但降低了 CV 二聚体的表达和 ATP 合成率。用野生型 USMG5 cDNA 在先证者的成纤维细胞中进行挽救,恢复了 USMG5 蛋白,增加了 CV 二聚化并增强了 ATP 产生率。这些数据表明,在 Ashkenazi 犹太人群中,一种常见的 USMG5 剪接位点的突变,通过降低 CV 二聚化和 ATP 合成,导致常染色体隐性遗传 Leigh 综合征。

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