隐性截断肌联蛋白基因 TTN 突变表现为中心核肌病。
Recessive truncating titin gene, TTN, mutations presenting as centronuclear myopathy.
机构信息
From the Division of Genetics and Program in Genomics, The Manton Center for Orphan Disease Research (O.C.-B., P.B.A., K.S.-A., E.T.D., L.C.S., K.M., A.H.B.), and Division of Newborn Medicine (P.B.A.), Boston Children's Hospital, Harvard Medical School, Boston, MA; Department of Physiology and Sarver Molecular Cardiovascular Research Program (C.H., H.G.), University of Arizona, Tucson; Center for Computational Molecular Biology and Department of Molecular and Cellular Biology and Biochemistry (R.S., W.G.F.), Brown University, Providence, RI; Department of Translational Medicine (N.V., J.L.), IGBMC, INSERM U964, CNRS UMR7104, University of Strasbourg, Illkirch, France; Departments of Pediatrics and Neurology and Neurotherapeutics (S.T.I.), University of Texas Southwestern Medical Center, Dallas; Department of Neurology (P.B.S.), University of California, Los Angeles; Division of Human Genetics (N.S.), Department of Pediatrics, Rhode Island Hospital, Providence; Department of Pediatrics, Division of Pediatric Pathology (J.M.D.), and Department of Pathology and Laboratory Medicine (M.W.L), Medical College of Wisconsin, Milwaukee; Hasbro Children's Hospital (J.M.D.), and Center for Biomedical Engineering (W.G.F.), Brown University, Providence, RI.
出版信息
Neurology. 2013 Oct 1;81(14):1205-14. doi: 10.1212/WNL.0b013e3182a6ca62. Epub 2013 Aug 23.
OBJECTIVE
To identify causative genes for centronuclear myopathies (CNM), a heterogeneous group of rare inherited muscle disorders that often present in infancy or early life with weakness and hypotonia, using next-generation sequencing of whole exomes and genomes.
METHODS
Whole-exome or -genome sequencing was performed in a cohort of 29 unrelated patients with clinicopathologic diagnoses of CNM or related myopathy depleted for cases with mutations of MTM1, DNM2, and BIN1. Immunofluorescence analyses on muscle biopsies, splicing assays, and gel electrophoresis of patient muscle proteins were performed to determine the molecular consequences of mutations of interest.
RESULTS
Autosomal recessive compound heterozygous truncating mutations of the titin gene, TTN, were identified in 5 individuals. Biochemical analyses demonstrated increased titin degradation and truncated titin proteins in patient muscles, establishing the impact of the mutations.
CONCLUSIONS
Our study identifies truncating TTN mutations as a cause of congenital myopathy that is reported as CNM. Unlike the classic CNM genes that are all involved in excitation-contraction coupling at the triad, TTN encodes the giant sarcomeric protein titin, which forms a myofibrillar backbone for the components of the contractile machinery. This study expands the phenotypic spectrum associated with TTN mutations and indicates that TTN mutation analysis should be considered in cases of possible CNM without mutations in the classic CNM genes.
目的
通过对整个外显子组和基因组进行下一代测序,确定核纤层肌病(CNM)的致病基因。CNM 是一组罕见的遗传性肌肉疾病,具有异质性,常发生在婴儿期或生命早期,表现为肌无力和低张力。
方法
对 29 名经临床病理诊断为 CNM 或相关肌病的患者进行全外显子或全基因组测序,这些患者的病例已排除 MTM1、DNM2 和 BIN1 突变。对肌肉活检进行免疫荧光分析、剪接分析和患者肌肉蛋白的凝胶电泳,以确定感兴趣突变的分子后果。
结果
5 名患者存在肌联蛋白基因 TTN 的常染色体隐性复合杂合截断突变。生化分析表明患者肌肉中的肌联蛋白降解增加且肌联蛋白蛋白截断,证实了突变的影响。
结论
我们的研究确定截断的 TTN 突变是先天性肌病的一个原因,该疾病被报道为 CNM。与所有涉及三联体兴奋-收缩偶联的经典 CNM 基因不同,TTN 编码巨大的肌节蛋白肌联蛋白,它为收缩机制的成分形成肌纤维的骨干。这项研究扩展了与 TTN 突变相关的表型谱,并表明在没有经典 CNM 基因突变的情况下,应考虑对可能的 CNM 病例进行 TTN 突变分析。
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