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与发育迟缓、生长发育不良和感音神经性听力损失相关的MARS2基因中的新型复合杂合单核苷酸变异体。

Novel, compound heterozygous, single-nucleotide variants in MARS2 associated with developmental delay, poor growth, and sensorineural hearing loss.

作者信息

Webb Bryn D, Wheeler Patricia G, Hagen Jacob J, Cohen Ninette, Linderman Michael D, Diaz George A, Naidich Thomas P, Rodenburg Richard J, Houten Sander M, Schadt Eric E

机构信息

Department of Genetics and Genomic Sciences, Icahn School of Medicine at Mount Sinai, New York, New York.

Department of Pediatrics, Icahn School of Medicine at Mount Sinai, New York, New York.

出版信息

Hum Mutat. 2015 Jun;36(6):587-92. doi: 10.1002/humu.22781. Epub 2015 Apr 8.

DOI:10.1002/humu.22781
PMID:25754315
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4439286/
Abstract

Novel, single-nucleotide mutations were identified in the mitochondrial methionyl amino-acyl tRNA synthetase gene (MARS2) via whole exome sequencing in two affected siblings with developmental delay, poor growth, and sensorineural hearing loss.We show that compound heterozygous mutations c.550C>T:p.Gln 184* and c.424C>T:p.Arg142Trp in MARS2 lead to decreased MARS2 protein levels in patient lymphoblasts. Analysis of respiratory complex enzyme activities in patient fibroblasts revealed decreased complex I and IV activities. Immunoblotting of patient fibroblast and lymphoblast samples revealed reduced protein levels of NDUFB8 and COXII, representing complex I and IV, respectively. Additionally, overexpression of wild-type MARS2 in patient fibroblasts increased NDUFB8 and COXII protein levels. These findings suggest that recessive single-nucleotide mutations in MARS2 are causative for a new mitochondrial translation deficiency disorder with a primary phenotype including developmental delay and hypotonia. Identification of additional patients with single-nucleotide mutations in MARS2 is necessary to determine if pectus carinatum is also a consistent feature of this syndrome.

摘要

通过全外显子组测序,在两名患有发育迟缓、生长发育不良和感音神经性听力损失的患病同胞中,在线粒体甲硫氨酰氨酰tRNA合成酶基因(MARS2)中鉴定出了新的单核苷酸突变。我们发现,MARS2中的复合杂合突变c.550C>T:p.Gln 184*和c.424C>T:p.Arg142Trp导致患者淋巴母细胞中MARS2蛋白水平降低。对患者成纤维细胞中的呼吸链复合酶活性分析显示,复合体I和IV的活性降低。对患者成纤维细胞和淋巴母细胞样本进行免疫印迹分析发现,分别代表复合体I和IV的NDUFB8和COXII蛋白水平降低。此外,在患者成纤维细胞中过表达野生型MARS2可提高NDUFB8和COXII蛋白水平。这些发现表明,MARS2中的隐性单核苷酸突变是一种新的线粒体翻译缺陷疾病的病因,其主要表型包括发育迟缓和肌张力减退。有必要鉴定更多MARS2单核苷酸突变的患者,以确定鸡胸是否也是该综合征的一个一致特征。

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