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突变筛查揭示了新的变异,并扩展了与动力蛋白1重链1(DYNC1H1)相关的表型。

Mutation screen reveals novel variants and expands the phenotypes associated with DYNC1H1.

作者信息

Strickland Alleene V, Schabhüttl Maria, Offenbacher Hans, Synofzik Matthis, Hauser Natalie S, Brunner-Krainz Michaela, Gruber-Sedlmayr Ursula, Moore Steven A, Windhager Reinhard, Bender Benjamin, Harms Matthew, Klebe Stephan, Young Peter, Kennerson Marina, Garcia Avencia Sanchez Mejias, Gonzalez Michael A, Züchner Stephan, Schule Rebecca, Shy Michael E, Auer-Grumbach Michaela

机构信息

Department of Human Genetics and Hussman Institute for Human Genomics, University of Miami Miller School of Medicine, Miami, FL, USA.

Department of Orthopaedics, Medical University Vienna, Währingergürtel 18-20, 1090, Vienna, Austria.

出版信息

J Neurol. 2015 Sep;262(9):2124-34. doi: 10.1007/s00415-015-7727-2. Epub 2015 Jun 24.

DOI:10.1007/s00415-015-7727-2
PMID:26100331
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4573829/
Abstract

Dynein, cytoplasmic 1, heavy chain 1 (DYNC1H1) encodes a necessary subunit of the cytoplasmic dynein complex, which traffics cargo along microtubules. Dominant DYNC1H1 mutations are implicated in neural diseases, including spinal muscular atrophy with lower extremity dominance (SMA-LED), intellectual disability with neuronal migration defects, malformations of cortical development, and Charcot-Marie-Tooth disease, type 2O. We hypothesized that additional variants could be found in these and novel motoneuron and related diseases. Therefore, we analyzed our database of 1024 whole exome sequencing samples of motoneuron and related diseases for novel single nucleotide variations. We filtered these results for significant variants, which were further screened using segregation analysis in available family members. Analysis revealed six novel, rare, and highly conserved variants. Three of these are likely pathogenic and encompass a broad phenotypic spectrum with distinct disease clusters. Our findings suggest that DYNC1H1 variants can cause not only lower, but also upper motor neuron disease. It thus adds DYNC1H1 to the growing list of spastic paraplegia related genes in microtubule-dependent motor protein pathways.

摘要

动力蛋白,胞质1,重链1(DYNC1H1)编码胞质动力蛋白复合体的一个必需亚基,该复合体沿微管运输货物。显性DYNC1H1突变与神经疾病有关,包括下肢优势型脊髓性肌萎缩症(SMA-LED)、伴有神经元迁移缺陷的智力残疾、皮质发育畸形以及2O型夏科-马里-图斯病。我们推测在这些疾病以及新型运动神经元及相关疾病中可能会发现其他变异。因此,我们分析了我们的1024个运动神经元及相关疾病全外显子测序样本数据库,以寻找新型单核苷酸变异。我们对这些结果进行筛选以找出显著变异,然后在现有家庭成员中使用分离分析对其进一步筛选。分析发现了六个新型、罕见且高度保守的变异。其中三个可能具有致病性,涵盖了具有不同疾病簇的广泛表型谱。我们的研究结果表明,DYNC1H1变异不仅可导致下运动神经元疾病,还可导致上运动神经元疾病。因此,它将DYNC1H1添加到微管依赖性运动蛋白途径中与痉挛性截瘫相关基因的不断增加的列表中。

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本文引用的文献

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Novel mutations expand the clinical spectrum of DYNC1H1-associated spinal muscular atrophy.新型突变扩展了与动力蛋白1重链1(DYNC1H1)相关的脊髓性肌萎缩症的临床谱。
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Novel dynein DYNC1H1 neck and motor domain mutations link distal spinal muscular atrophy and abnormal cortical development.新型动力蛋白 DYNC1H1 的颈部和运动结构域突变与远端脊髓性肌萎缩及异常皮质发育相关。
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Mutations in BICD2 cause dominant congenital spinal muscular atrophy and hereditary spastic paraplegia.BICD2 基因突变导致显性先天性脊髓性肌萎缩和遗传性痉挛性截瘫。
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GEnomes Management Application (GEM.app): a new software tool for large-scale collaborative genome analysis.基因组管理应用程序(GEM.app):用于大规模协作基因组分析的新软件工具。
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A DYNC1H1 mutation causes a dominant spinal muscular atrophy with lower extremity predominance.一个 DYNC1H1 突变导致显性遗传性下运动神经元疾病伴下肢优势。
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