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定量 RyR1 减少和 RyR1Q1970fsX16+A4329D 的钙敏感性丧失导致核心和肌肉力量丧失。

Quantitative RyR1 reduction and loss of calcium sensitivity of RyR1Q1970fsX16+A4329D cause cores and loss of muscle strength.

机构信息

Departments of Anaesthesia and Biomedicine, Basel University Hospital, Hebelstrasse 20, 4031 Basel, Switzerland.

Center for Transgenic Models, University of Basel, Mattenstrasse 22, 4002 Basel, Switzerland.

出版信息

Hum Mol Genet. 2019 Sep 15;28(18):2987-2999. doi: 10.1093/hmg/ddz092.

DOI:10.1093/hmg/ddz092
PMID:31044239
Abstract

Recessive ryanodine receptor 1 (RYR1) mutations cause congenital myopathies including multiminicore disease (MmD), congenital fiber-type disproportion and centronuclear myopathy. We created a mouse model knocked-in for the Q1970fsX16+A4329D RYR1 mutations, which are isogenic with those identified in a severely affected child with MmD. During the first 20 weeks after birth the body weight and the spontaneous running distance of the mutant mice were 20% and 50% lower compared to wild-type littermates. Skeletal muscles from mutant mice contained 'cores' characterized by severe myofibrillar disorganization associated with misplacement of mitochondria. Furthermore, their muscles developed less force and had smaller electrically evoked calcium transients. Mutant RyR1 channels incorporated into lipid bilayers were less sensitive to calcium and caffeine, but no change in single-channel conductance was observed. Our results demonstrate that the phenotype of the RyR1Q1970fsX16+A4329D compound heterozygous mice recapitulates the clinical picture of multiminicore patients and provide evidence of the molecular mechanisms responsible for skeletal muscle defects.

摘要

隐性兰尼碱受体 1(RYR1)突变导致先天性肌病,包括多发性肌病核心(MmD)、先天性纤维类型比例失调和中核肌病。我们创建了一个敲入 Q1970fsX16+A4329D RYR1 突变的小鼠模型,与患有 MmD 的严重受影响儿童中鉴定的突变是同型的。与野生型同窝仔相比,突变小鼠在出生后 20 周内的体重和自发跑步距离低 20%和 50%。突变小鼠的骨骼肌含有“核心”,其特征是严重的肌原纤维排列紊乱,伴有线粒体位置不当。此外,它们的肌肉产生的力较小,电诱发的钙瞬变较小。整合到脂质双层中的突变 RyR1 通道对钙和咖啡因的敏感性降低,但观察到单通道电导没有变化。我们的结果表明,RyR1Q1970fsX16+A4329D 复合杂合子小鼠的表型再现了多发性肌病核心患者的临床图片,并为骨骼肌缺陷的分子机制提供了证据。

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