Si Luo, Min Zhu, Dandan Tan, Yusen Qiu, Meihong Zhou, Daojun Hong
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引用次数: 0
Abstract
CACNA1S variants can alter the structure and function of the calcium channel, resulting in abnormal calcium influx and homeostasis. It is well established that pathogenic variants in CACNA1S can lead to hypokalemic periodic paralysis, malignant hyperthermia, and congenital myopathy. Nevertheless, the clinical presentations and disease progression of exertional myalgia and weakness associated with CACNA1S variants remain elusive. In this study, four affected individuals from an autosomal-dominant family were described, exhibiting symptoms of severe exertional myalgia, followed by flaccid weakness or rhabdomyolysis, along with asymptomatic hyperCKemia during the interictal period. Long exercise test showed a late decrease in compound muscle action potential amplitude. Muscle MRI revealed edema-like changes in the early stage, and fatty degeneration and substitution in prolonged disease courses, while closely aligned with the features of chronic myopathy. Ultrastructural examination revealed dilation of the sarcoplasmic reticulum and myofibrillar structural disarrangement. Genetic screening identified a c.3724A>G (p.Arg1242Gly) mutation in the CACNA1S gene. A literature review revealed that 15 patients exhibited the exertional myalgia and weakness phenotype associated with CACNA1S mutations, presenting similar clinical, electrophysiological, radiological, and pathological features. As the disease progressed, these patients developed severe muscle weakness, ultimately leading to wheelchair dependency. This exertional myalgia-weakness phenotype represented a unique CACNA1S-related phenotype that broadened the spectrum of CACNA1S-associated myopathy, bridging between periodic paralysis and congenital myopathies. The similarities between CACNA1S-associated myalgia-weakness and RyR1-associated myalgia-weakness underscored a shared pathogenesis of excitatory-contractile coupling at the triad of skeletal muscle.
CACNA1S变异可以改变钙通道的结构和功能,导致异常的钙流入和体内平衡。已经证实,CACNA1S的致病变异可导致低钾性周期性麻痹、恶性高热和先天性肌病。然而,与CACNA1S变异相关的运动性肌痛和虚弱的临床表现和疾病进展仍然难以捉摸。在这项研究中,描述了来自常染色体显性家族的四名受影响个体,表现出严重的运动性肌痛症状,随后出现弛缓性无力或横纹肌溶解,并在中间期出现无症状的高血凝症。长时间运动试验显示复合肌动作电位幅值迟发性下降。肌肉MRI显示早期水肿样改变,延长病程时脂肪变性和替代,与慢性肌病的特征密切相关。超微结构检查显示肌浆网扩张,肌纤维结构紊乱。遗传筛选发现了CACNA1S基因c.3724A b> G (p.a g1242gly)突变。文献回顾显示,15例患者表现出与CACNA1S突变相关的运动性肌痛和虚弱表型,表现出相似的临床、电生理、放射学和病理特征。随着病情的发展,这些患者出现了严重的肌肉无力,最终导致轮椅依赖。这种运动性肌痛-无力表型代表了一种独特的cacna1s相关表型,它拓宽了cacna1s相关肌病的频谱,在周期性麻痹和先天性肌病之间架起了桥梁。cacna1s相关的肌痛-无力和ryr1相关的肌痛-无力之间的相似性强调了骨骼肌三联肌兴奋-收缩耦合的共同发病机制。
期刊介绍:
Therapeutic Advances in Neurological Disorders is a peer-reviewed, open access journal delivering the highest quality articles, reviews, and scholarly comment on pioneering efforts and innovative studies across all areas of neurology. The journal has a strong clinical and pharmacological focus and is aimed at clinicians and researchers in neurology, providing a forum in print and online for publishing the highest quality articles in this area.
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