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导致A型和B型尼曼-匹克病的八个新的SMPD1突变的鉴定与特征分析

Identification and characterization of eight novel SMPD1 mutations causing types A and B Niemann-Pick disease.

机构信息

Department of Genetics and Genomic Sciences, Mount Sinai School of Medicine of New York University, New York, New York 10029, United States of America.

出版信息

Mol Med. 2010 Jul-Aug;16(7-8):316-21. doi: 10.2119/molmed.2010.00017. Epub 2010 Apr 6.

DOI:10.2119/molmed.2010.00017
PMID:20386867
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2896470/
Abstract

Types A and B Niemann-Pick disease (NPD) result from the deficient activity of acid sphingomyelinase (ASM), due to mutations in the sphingomyelin phosphodiesterase 1 (SMPD1) gene. Here we report the identification, characterization and genotype/phenotype correlations of eight novel mutations in six unrelated NPD patients. These mutations included seven missense mutations: c.631T>C (p.W211R), c.757G>C (p.D253H), c.940G>A (p.V314M), c.1280A>G (p.H427R), c.1564A>G (p.N522S), c.1575G>C (p.Q525H) and c.1729A>G (p.H577R), and a novel frameshift mutation, c.1657delACCGCCT (fsT553). Each missense mutation was expressed in 293T or COS-7 cells; mutant enzymes p.W211R, p.D253H, p.H427R and p.H577R had <1% of expressed wild-type activity, whereas p.V314M, p.N522S and p.Q525H had 21.7%, 10.1% and 64% of expressed wild-type activity, respectively. The c.1564A>G mutation obliterated a known N-glycosylation site and its p.N522S mutant enzyme had ~10% of expressed wild-type activity. Western blot analysis revealed that each mutant protein was expressed at near wild-type amounts, despite their differences in residual activity. The novel seven-base deletion occurred at codon 553, leading to a premature truncation after residue 609. The expression studies predicted the clinical phenotypes of the six patients: two type A patients had genotypes with only type A alleles [c.631T>C (p.W211R), c.757G>C (p.D253H) and c.1729A>G (p.H577R)], and the other four type B disease patients had at least one neuroprotective mutant type B allele [c.940G>A (p.V314M), c.1280A>G (p.H427R), c.1564A>G (p.N522S) and c.1575G>C (p.Q525H)] that expressed >5% residual ASM activity. Thus, these new mutations provide novel genotype/phenotype correlations and further document the genetic heterogeneity in types A and B NPD.

摘要

A型和B型尼曼-匹克病(NPD)是由于酸性鞘磷脂酶(ASM)活性不足所致,这是由鞘磷脂磷酸二酯酶1(SMPD1)基因突变引起的。在此,我们报告了6例无关的NPD患者中8个新突变的鉴定、特征及基因型/表型相关性。这些突变包括7个错义突变:c.631T>C(p.W211R)、c.757G>C(p.D253H)、c.940G>A(p.V314M)、c.1280A>G(p.H427R)、c.1564A>G(p.N522S)、c.1575G>C(p.Q525H)和c.1729A>G(p.H577R),以及一个新的移码突变c.1657delACCGCCT(fsT553)。每个错义突变均在293T或COS-7细胞中表达;突变酶p.W211R、p.D253H、p.H427R和p.H577R的表达野生型活性<1%,而p.V314M、p.N522S和p.Q525H的表达野生型活性分别为21.7%、10.1%和64%。c.1564A>G突变消除了一个已知的N-糖基化位点,其p.N522S突变酶的表达野生型活性约为10%。蛋白质印迹分析显示,尽管各突变蛋白的残余活性存在差异,但其表达量接近野生型水平。新的7碱基缺失发生在密码子553处,导致在第609位残基后提前截断。表达研究预测了这6例患者的临床表型:2例A型患者的基因型仅含A型等位基因[c.631T>C(p.W211R)、c.757G>C(p.D253H)和c.1729A>G(p.H577R)],另外4例B型疾病患者至少有一个具有神经保护作用的B型突变等位基因[c.940G>A(p.V314M)、c.1280A>G(p.H427R)、c.1564A>G(p.N522S)和c.1575G>C(p.Q525H)],其表达的ASM残余活性>5%。因此,这些新突变提供了新的基因型/表型相关性,并进一步证明了A型和B型NPD的遗传异质性。

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