新型突变导致运动神经元病和远端肌病。

Novel mutation causes both motor neuronopathy and distal myopathy.

作者信息

Lewis-Smith D J, Duff J, Pyle A, Griffin H, Polvikoski T, Birchall D, Horvath R, Chinnery P F

机构信息

Institute of Genetic Medicine (D.J.L.-S., J.D., A.P., H.G., R.H., P.F.C.), Institute of Neuroscience (T.P.), Newcastle University; Newcastle upon Tyne Hospitals NHS Foundation Trust (D.J.L.-S., T.P., D.B., R.H.); MRC-Mitochondrial Biology Unit (P.F.C.), Cambridge Biomedical Campus; and Department of Clinical Neurosciences (P.F.C.), Cambridge Biomedical Campus, University of Cambridge, UK.

出版信息

Neurol Genet. 2016 Oct 31;2(6):e110. doi: 10.1212/NXG.0000000000000110. eCollection 2016 Dec.

DOI:10.1212/NXG.0000000000000110

PMID:27830184

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5089436/

Abstract

OBJECTIVE

To identify the cause of isolated distal weakness in a family with both neuropathic and myopathic features on EMG and muscle histology.

METHODS

Case study with exome sequencing in 2 affected individuals, bioinformatic prioritization of genetic variants, and segregation analysis of the likely causal mutation. Functional studies included Western blot analysis of the candidate protein before and after heat shock treatment of primary skin fibroblasts.

RESULTS

A novel variant (c.387C>G, p.Asp129Glu) segregated with the phenotype and was predicted to alter the conserved α-crystallin domain common to small heat shock proteins. At baseline, there was no difference in HSPB1 protein levels nor its binding partner αB-crystallin. Heat shock treatment increased HSPB1 protein levels in both patient-derived and control fibroblasts, but the associated increase in αB-crystallin expression was greater in patient-derived than control fibroblasts.

CONCLUSIONS

The variant (c.387C>G, p.Asp129Glu) is the likely cause of distal neuromyopathy in this pedigree with pathogenic effects mediated through binding to its partner heat shock protein αB-crystallin. Mutations in classically cause a motor axonopathy, but this family shows that the distal weakness can be both myopathic and neuropathic. The traditional clinical classification of distal weakness into "myopathic" or "neuropathic" forms may be misleading in some instances, and future treatments need to address the pathology in both tissues.

摘要

目的

在一个肌电图和肌肉组织学具有神经病变和肌病特征的家族中，确定孤立性远端肌无力的病因。

方法

对2名受影响个体进行外显子组测序的病例研究、对基因变异进行生物信息学优先级排序以及对可能的致病突变进行分离分析。功能研究包括对原代表皮成纤维细胞进行热休克处理前后候选蛋白的蛋白质印迹分析。

结果

一个新的变异（c.387C>G，p.Asp129Glu）与该表型共分离，预计会改变小热休克蛋白共有的保守α-晶状体蛋白结构域。在基线时，HSPB1蛋白水平及其结合伴侣αB-晶状体蛋白没有差异。热休克处理增加了患者来源和对照成纤维细胞中HSPB1蛋白水平，但患者来源的成纤维细胞中αB-晶状体蛋白表达的相关增加大于对照成纤维细胞。

结论

变异（c.387C>G，p.Asp129Glu）可能是这个家系中远端神经肌肉病的病因，其致病作用是通过与其伴侣热休克蛋白αB-晶状体蛋白结合介导的。经典的突变通常导致运动轴索性神经病，但这个家族表明远端肌无力可能同时具有肌病和神经病变特征。在某些情况下，将远端肌无力传统地临床分类为“肌病性”或“神经病变性”形式可能会产生误导，未来的治疗需要针对两种组织的病理情况。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/65f4/5089436/d20a6bf16ff2/NG2016002857FF1.jpg

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新型突变导致运动神经元病和远端肌病。

Novel mutation causes both motor neuronopathy and distal myopathy.

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出版信息

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METHODS

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