扩大与动力蛋白1重链1（DYNC1H1）突变相关的表型谱。

Expanding the phenotypic spectrum associated with mutations of DYNC1H1.

作者信息

Beecroft Sarah J, McLean Catriona A, Delatycki Martin B, Koshy Kurian, Yiu Eppie, Haliloglu Goknur, Orhan Diclehan, Lamont Phillipa J, Davis Mark R, Laing Nigel G, Ravenscroft Gianina

机构信息

Neurogenetic Diseases Group Centre for Medical Research, QEII Medical Centre, University of Western Australia, Nedlands, WA 6009, Australia; QEII Medical Centre, Harry Perkins Institute of Medical Research, Nedlands, WA 6009, Australia.

Victorian Neuromuscular Laboratory, Alfred Health, Commercial Rd, Prahran, Vic. 3181, Australia.

出版信息

Neuromuscul Disord. 2017 Jul;27(7):607-615. doi: 10.1016/j.nmd.2017.04.011. Epub 2017 May 5.

DOI:10.1016/j.nmd.2017.04.011

PMID:28554554

Abstract

Autosomal dominant mutations of DYNC1H1 cause a range of neurogenetic diseases, including mental retardation with cortical malformations, hereditary spastic paraplegia and spinal muscular atrophy. Using SNP array, linkage analysis and next generation sequencing, we identified two families and one isolated proband sharing a known spinal muscular atrophy, lower extremity predominant (SMALED) causing mutation DYNC1H1 c.1792C>T, p.Arg598Cys, and another family harbouring a c.2327C>T, p.Pro776Leu mutation. Here, we present a detailed clinical and pathological examination of these patients, and show that patients with DYNC1H1 mutations may present with a phenotype mimicking a congenital myopathy. We also highlight features that increase the phenotypic overlap with BICD2, which causes SMALED2. Serial muscle biopsies were available for several patients, spanning from infancy and early childhood to middle age. These provide a unique insight into the developmental and pathological origins of SMALED, suggesting in utero denervation with reinnervation by surrounding intact motor neurons and segmental anterior horn cell deficits. We characterise biopsy features that may make diagnosis of this condition easier in the future.

摘要

动力蛋白1重链（DYNC1H1）的常染色体显性突变会引发一系列神经遗传性疾病，包括伴有皮质畸形的智力迟钝、遗传性痉挛性截瘫和脊髓性肌萎缩。通过单核苷酸多态性（SNP）芯片、连锁分析和下一代测序技术，我们鉴定出两个家族和一名散发的先证者，他们均携带一种已知的可导致以下肢为主的脊髓性肌萎缩（SMALED）的突变——DYNC1H1基因c.1792C>T，p.Arg598Cys；另外还鉴定出一个携带c.2327C>T，p.Pro776Leu突变的家族。在此，我们对这些患者进行了详细的临床和病理检查，并表明携带DYNC1H1突变的患者可能表现出类似先天性肌病的表型。我们还强调了一些特征，这些特征增加了与导致SMALED2的BICD2基因的表型重叠。我们获得了几名患者从婴儿期、幼儿期到中年期的系列肌肉活检样本。这些样本为深入了解SMALED的发育和病理起源提供了独特视角，提示在子宫内存在去神经支配现象，随后由周围完整的运动神经元进行重新支配，以及节段性前角细胞缺陷。我们对活检特征进行了描述，这可能会使未来对这种疾病的诊断更加容易。

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扩大与动力蛋白1重链1（DYNC1H1）突变相关的表型谱。

Expanding the phenotypic spectrum associated with mutations of DYNC1H1.

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