人类MYH10的新生突变在小鼠中表现出功能突变的丧失。

Rare diseases (Austin, Tex.) Pub Date : 2013-08-14 eCollection Date: 2013-01-01 DOI:10.4161/rdis.26144
Lea Tuzovic, Lan Yu, Wenqi Zeng, Xiang Li, Hong Lu, Hsiao-Mei Lu, Kelly Df Gonzalez, Wendy K Chung
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引用次数: 40

摘要

我们使用全外显子组序列分析研究了一例具有宫内生长受限、小头畸形、发育迟缓、发育不全、先天性双侧髋关节发育不良、大脑和小脑萎缩、脑积水和先天性膈疝(CDH)表型的患者可能的遗传病因。全外显子组测序发现,编码非肌肉重链ⅱB (NMHCⅱB)的肌球蛋白重链10 (MYH10)基因(MYH10)发生了一种新的从头突变c.2722G > T (p.E908X)。MYH10突变以前未被描述与人类疾病相关。E908X突变位于蛋白质的螺旋状区域,预计会删除尾部结构域并破坏纤维组装。非肌球蛋白II (NM IIs)是一组普遍表达的蛋白,其中NM iib在神经元组织中特异性富集,被认为在神经元迁移中起重要作用。它也在心肌细胞中与NM IIC一起表达。纯合子NMHC II B-/B-敲除小鼠在胚胎日(E)14.5时死亡,伴有严重心脏缺陷(膜性室间隔缺损和心流出道异常)和神经发育障碍(进行性脑积水和神经元迁移异常)。杂合子MYH10功能缺失突变产生严重的神经表型和CDH,但没有明显的心脏表型,这表明MYH10可能是脑畸形和/或CDH的新基因。
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A human de novo mutation in MYH10 phenocopies the loss of function mutation in mice.

We used whole exome sequence analysis to investigate a possible genetic etiology for a patient with the phenotype of intrauterine growth restriction, microcephaly, developmental delay, failure to thrive, congenital bilateral hip dysplasia, cerebral and cerebellar atrophy, hydrocephalus, and congenital diaphragmatic hernia (CDH). Whole exome sequencing identified a novel de novo c.2722G > T (p.E908X) mutation in the Myosin Heavy Chain 10 gene (MYH10) which encodes for non-muscle heavy chain II B (NMHC IIB). Mutations in MYH10 have not been previously described in association with human disease. The E908X mutation is located in the coiled-coil region of the protein and is expected to delete the tail domain and disrupt filament assembly. Nonmuscle myosin IIs (NM IIs) are a group of ubiquitously expressed proteins, and NM II B is specifically enriched in neuronal tissue and is thought to be important in neuronal migration. It is also expressed in cardiac myocytes along with NM IIC. Homozygous NMHC II B-/B- mouse knockouts die by embryonic day (E)14.5 with severe cardiac defects (membranous ventricular septal defect and cardiac outflow tract abnormalities) and neurodevelopmental disorders (progressive hydrocephalus and neuronal migrational abnormalities). A heterozygous MYH10 loss of function mutation produces a severe neurologic phenotype and CDH but no apparent cardiac phenotype and suggests that MYH10 may represent a novel gene for brain malformations and/or CDH.

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