Harris Elizabeth, Burki Umar, Marini-Bettolo Chiara, Neri Marcella, Scotton Chiara, Hudson Judith, Bertoli Marta, Evangelista Teresinha, Vroling Bas, Polvikoski Tuomo, Roberts Mark, Töpf Ana, Bushby Kate, McArthur Daniel, Lochmüller Hanns, Ferlini Alessandra, Straub Volker, Barresi Rita
The John Walton Muscular Dystrophy Research Centre, Institute of Genetic Medicine, Central Parkway, Newcastle upon Tyne NE1 3BZ, UK.
Medical Genetics Unit, Department of Medical Sciences, University of Ferrara, 44121 Ferrara, Italy.
Neuromuscul Disord. 2017 Sep;27(9):861-872. doi: 10.1016/j.nmd.2017.05.002. Epub 2017 May 4.
Dominant mutations in STIM1 are a cause of three allelic conditions: tubular aggregate myopathy, Stormorken syndrome (a complex phenotype including myopathy, hyposplenism, hypocalcaemia and bleeding diathesis), and a platelet dysfunction disorder, York platelet syndrome. Previous reports have suggested a genotype-phenotype correlation with mutations in the N-terminal EF-hand domain associated with tubular aggregate myopathy, and a common mutation at p.R304W in a coiled coil domain associated with Stormorken syndrome. In this study individuals with STIM1 variants were identified by exome sequencing or STIM1 direct sequencing, and assessed for neuromuscular, haematological and biochemical evidence of the allelic disorders of STIM1. STIM1 mutations were investigated by fibroblast calcium imaging and 3D modelling. Six individuals with STIM1 mutations, including two novel mutations (c.262A>G (p.S88G) and c.911G>A (p.R304Q)), were identified. Extra-neuromuscular symptoms including thrombocytopenia, platelet dysfunction, hypocalcaemia or hyposplenism were present in 5/6 patients with mutations in both the EF-hand and CC domains. 3/6 patients had psychiatric disorders, not previously reported in STIM1 disease. Review of published STIM1 patients (n = 49) confirmed that neuromuscular symptoms are present in most patients. We conclude that the phenotype associated with activating STIM1 mutations frequently includes extra-neuromuscular features such as hypocalcaemia, hypo-/asplenia and platelet dysfunction regardless of mutation domain.
STIM1基因的显性突变是三种等位基因疾病的病因:管状聚集性肌病、斯托莫尔肯综合征(一种复杂的表型,包括肌病、脾功能减退、低钙血症和出血倾向)以及一种血小板功能障碍性疾病——约克血小板综合征。先前的报道表明,与管状聚集性肌病相关的N端EF手结构域突变存在基因型-表型相关性,而与斯托莫尔肯综合征相关的卷曲螺旋结构域中常见的p.R304W突变。在本研究中,通过外显子组测序或STIM1直接测序鉴定出携带STIM1变异的个体,并评估其神经肌肉、血液学和生化方面的STIM1等位基因疾病证据。通过成纤维细胞钙成像和三维建模研究STIM1突变。鉴定出6名携带STIM1突变的个体,包括两个新突变(c.262A>G(p.S88G)和c.911G>A(p.R304Q))。5/6名EF手结构域和CC结构域均有突变的患者出现了包括血小板减少、血小板功能障碍、低钙血症或脾功能减退在内的神经肌肉外症状。3/6名患者有精神疾病,这在STIM1疾病中以前未曾报道过。对已发表的STIM1患者(n = 49)的回顾证实,大多数患者存在神经肌肉症状。我们得出结论,与激活STIM1突变相关的表型通常包括神经肌肉外特征,如低钙血症、脾功能减退/无脾和血小板功能障碍,而与突变结构域无关。
