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生存运动神经元1的无义介导信使核糖核酸衰变导致脊髓性肌萎缩症。

Nonsense-mediated messenger RNA decay of survival motor neuron 1 causes spinal muscular atrophy.

作者信息

Brichta Lars, Garbes Lutz, Jedrzejowska Maria, Grellscheid Sushma-Nagaraja, Holker Irmgard, Zimmermann Katharina, Wirth Brunhilde

机构信息

Institute of Human Genetics, and Center for Molecular Medicine Cologne, University of Cologne, Kerpener Str. 34, 50931, Cologne, Germany.

出版信息

Hum Genet. 2008 Mar;123(2):141-53. doi: 10.1007/s00439-007-0455-7. Epub 2008 Jan 3.

DOI:10.1007/s00439-007-0455-7
PMID:18172693
Abstract

Autosomal recessive proximal spinal muscular atrophy (SMA) is a neurodegenerative disorder resulting from functional loss of survival motor neuron 1 (SMN1). Homozygous absence of SMN1 due to deletion or gene conversion accounts for about 96% of SMA cases. In the remaining 4%, subtle SMN1 mutations are commonly identified. Here, we describe two novel intragenic SMN1 mutations in three type I SMA individuals: a point mutation in exon 3 (c.469C > T) and a substitution in intron 4 (c.628-140A > G). In-vivo splicing assays demonstrated that the intronic substitution creates a novel splice donor site, culminating in aberrant splicing and insertion of 65 bp from intron 4 between exons 4 and 5 in SMN1 transcripts (c.627_628ins65). Both mutations render SMN1 transcripts susceptible to nonsense-mediated mRNA decay (NMD), resulting in mRNA degradation, insufficient SMN protein levels and development of an SMA phenotype. Treatment of patient cell lines with the translation inhibitors puromycin and emetine markedly increased the levels of mutant SMN1 transcripts. A similar effect was observed after siRNA-mediated knockdown of UPF1, a factor essential for NMD. This study provides first evidence that NMD of SMN1 transcripts is responsible for the molecular basis of disease in a subset of SMA patients.

摘要

常染色体隐性近端脊髓性肌萎缩症(SMA)是一种由生存运动神经元1(SMN1)功能丧失导致的神经退行性疾病。由于缺失或基因转换导致的SMN1纯合缺失约占SMA病例的96%。在其余4%的病例中,通常可检测到SMN1的微小突变。在此,我们描述了3例I型SMA患者中的2种新的SMN1基因内突变:外显子3中的一个点突变(c.469C>T)和内含子4中的一个替换(c.628-140A>G)。体内剪接试验表明,内含子替换产生了一个新的剪接供体位点,最终导致异常剪接,并在SMN1转录本的外显子4和5之间插入了来自内含子4的65 bp(c.627_628ins65)。这两种突变均使SMN1转录本易受无义介导的mRNA降解(NMD)影响,导致mRNA降解、SMN蛋白水平不足以及SMA表型的出现。用翻译抑制剂嘌呤霉素和依米丁处理患者细胞系可显著提高突变型SMN1转录本的水平。在通过siRNA介导敲低对NMD至关重要的因子UPF1后,也观察到了类似的效果。本研究首次证明,SMN1转录本的NMD是一部分SMA患者疾病分子基础的原因。

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Real-world evidence: Risdiplam in a patient with spinal muscular atrophy type I with a novel splicing mutation and one SMN2 copy.真实世界证据:利司扑兰治疗 I 型脊髓性肌萎缩伴新型剪接突变和 1 个 SMN2 拷贝的患者。
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本文引用的文献

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