管状聚集性肌病中具有不同通道门控缺陷的ORAI1突变

ORAI1 Mutations with Distinct Channel Gating Defects in Tubular Aggregate Myopathy.

作者信息

Böhm Johann, Bulla Monica, Urquhart Jill E, Malfatti Edoardo, Williams Simon G, O'Sullivan James, Szlauer Anastazja, Koch Catherine, Baranello Giovanni, Mora Marina, Ripolone Michela, Violano Raffaella, Moggio Maurizio, Kingston Helen, Dawson Timothy, DeGoede Christian G, Nixon John, Boland Anne, Deleuze Jean-François, Romero Norma, Newman William G, Demaurex Nicolas, Laporte Jocelyn

机构信息

Departement of Translational Medicine and Neurogenetics, IGBMC (Institut de Génétique et de Biologie Moléculaire et Cellulaire), Illkirch, France.

Inserm, U964, Illkirch, France.

出版信息

Hum Mutat. 2017 Apr;38(4):426-438. doi: 10.1002/humu.23172. Epub 2017 Feb 2.

DOI:10.1002/humu.23172

PMID:28058752

Abstract

Calcium (Ca ) is a physiological key factor, and the precise modulation of free cytosolic Ca levels regulates multiple cellular functions. Store-operated Ca entry (SOCE) is a major mechanism controlling Ca homeostasis, and is mediated by the concerted activity of the Ca sensor STIM1 and the Ca channel ORAI1. Dominant gain-of-function mutations in STIM1 or ORAI1 cause tubular aggregate myopathy (TAM) or Stormorken syndrome, whereas recessive loss-of-function mutations are associated with immunodeficiency. Here, we report the identification and functional characterization of novel ORAI1 mutations in TAM patients. We assess basal activity and SOCE of the mutant ORAI1 channels, and we demonstrate that the G98S and V107M mutations generate constitutively permeable ORAI1 channels, whereas T184M alters the channel permeability only in the presence of STIM1. These data indicate a mutation-dependent pathomechanism and a genotype/phenotype correlation, as the ORAI1 mutations associated with the most severe symptoms induce the strongest functional cellular effect. Examination of the non-muscle features of our patients strongly suggests that TAM and Stormorken syndrome are spectra of the same disease. Overall, our results emphasize the importance of SOCE in skeletal muscle physiology, and provide new insights in the pathomechanisms involving aberrant Ca homeostasis and leading to muscle dysfunction.

摘要

钙（Ca）是一种生理关键因子，细胞溶质游离钙水平的精确调节可调控多种细胞功能。储存式钙内流（SOCE）是控制钙稳态的主要机制，由钙传感器STIM1和钙通道ORAI1的协同活性介导。STIM1或ORAI1的显性功能获得性突变会导致肾小管聚集性肌病（TAM）或斯托莫尔肯综合征，而隐性功能丧失性突变与免疫缺陷有关。在此，我们报告了TAM患者中新型ORAI1突变的鉴定及功能特征。我们评估了突变型ORAI1通道的基础活性和SOCE，并证明G98S和V107M突变产生组成型可渗透的ORAI1通道，而T184M仅在存在STIM1时改变通道通透性。这些数据表明了一种突变依赖性致病机制以及基因型/表型相关性，因为与最严重症状相关的ORAI1突变会诱导最强的功能性细胞效应。对我们患者非肌肉特征的检查强烈表明，TAM和斯托莫尔肯综合征是同一种疾病的不同表现形式。总体而言，我们的结果强调了SOCE在骨骼肌生理学中的重要性，并为涉及异常钙稳态并导致肌肉功能障碍的致病机制提供了新的见解。

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ORAI1 Mutations with Distinct Channel Gating Defects in Tubular Aggregate Myopathy.管状聚集性肌病中具有不同通道门控缺陷的ORAI1突变

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管状聚集性肌病中具有不同通道门控缺陷的ORAI1突变

ORAI1 Mutations with Distinct Channel Gating Defects in Tubular Aggregate Myopathy.

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