c9orf72 家族性肌萎缩侧索硬化症中的轴突离子通道功能障碍。

Axonal ion channel dysfunction in c9orf72 familial amyotrophic lateral sclerosis.

机构信息

Westmead Clinical School, University of Sydney, Sydney, Australia.

Brain and Mind Research Institute, University of Sydney, Sydney, Australia.

出版信息

JAMA Neurol. 2015 Jan;72(1):49-57. doi: 10.1001/jamaneurol.2014.2940.

DOI:10.1001/jamaneurol.2014.2940

PMID:25384182

Abstract

IMPORTANCE

Abnormalities of axonal excitability characterized by upregulation of persistent sodium (Na+) conductances and reduced potassium (K+) currents have been reported in sporadic amyotrophic lateral sclerosis (SALS) phenotypes and linked to the development of clinical features such as fasciculations and neurodegeneration.

OBJECTIVE

To investigate whether abnormalities of axonal ion channel function, particularly upregulation of persistent Na+ conductances and reduced K+ currents, form the pathophysiological basis of chromosome 9 open reading frame 72 (c9orf72) familial amyotrophic lateral sclerosis (FALS).

DESIGN, SETTING, AND PARTICIPANTS: This was a prospective study. Clinical and functional assessment, along with motor-nerve excitability studies, were undertaken in 10 clinically affected patients with c9orf72 FALS, 9 asymptomatic c9orf72 mutation carriers, and 21 patients with SALS from 3 hospitals and 2 outpatient clinics.

MAIN OUTCOMES AND MEASURES

Axonal excitability variables were measured in patients with c9orf72 ALS and results compared with matched patients with SALS and healthy control participants.

RESULTS

Strength-duration time constant (τSD) was significantly increased in the patients with c9orf72 FALS and those with SALS (mean [SD], c9orf72 FALS: 0.50 [0.02] milliseconds; SALS: 0.52 [0.02] milliseconds; P < .01) when compared with control participants (mean [SD], 0.44 [0.01] milliseconds). In contrast, there were no significant changes of τSD in asymptomatic c9orf72 mutation carriers (P = .42). An accompanying increase in depolarizing threshold electrotonus at 90 to 100 milliseconds (TEd 90-100 milliseconds) was also evident in the c9orf72 FALS (P < .05) and SALS (P < .01) cohorts. Mathematical modeling suggested that an increase in persistent Na+ conductances, along with reduced K+ currents, best explained the changes in axonal excitability. Importantly, these abnormalities in axonal excitability correlated with the motor amplitude (τSD: R = -0.38, P < .05 and TEd 90-100 milliseconds: R = -0.44, P < .01), muscle weakness (TEd 90-100 milliseconds: R = -0.32, P < .05), and the ALS Functional Rating Scale (TEd 90-100 milliseconds: R = -0.34, P < .05).

CONCLUSIONS AND RELEVANCE

Findings from the present study establish that upregulation of persistent Na+ conductances and reduced K+ currents were evident in both c9orf72 FALS and SALS cohorts, and these changes in axonal excitability were associated with motor neuron degeneration.

摘要

重要性

在散发性肌萎缩侧索硬化症（SALS）表型中，已经报道了轴突兴奋性异常，其特征为持续钠（Na+）电导上调和钾（K+）电流减少，与纤维颤动和神经退行性变等临床特征的发展有关。

目的

研究轴突离子通道功能的异常，特别是持续钠（Na+）电导的上调和钾（K+）电流的减少，是否构成 9 号染色体开放阅读框 72（c9orf72）家族性肌萎缩侧索硬化症（FALS）的病理生理基础。

设计、地点和参与者：这是一项前瞻性研究。在 3 家医院和 2 家门诊诊所中，对 10 名临床受影响的 c9orf72 FALS 患者、9 名无症状 c9orf72 突变携带者和 21 名 SALS 患者进行了临床和功能评估，以及运动神经兴奋性研究。

主要结果和测量指标

测量了 c9orf72 ALS 患者的轴突兴奋性变量，并将结果与匹配的 SALS 患者和健康对照参与者进行了比较。

结果

与对照组参与者（平均值[标准差]，0.44 [0.01] 毫秒）相比，c9orf72 FALS 患者和 SALS 患者的强度-时间常数（τSD）显著增加（c9orf72 FALS：0.50 [0.02] 毫秒；SALS：0.52 [0.02] 毫秒；P <.01）。相比之下，无症状 c9orf72 突变携带者的 τSD 没有明显变化（P =.42）。在 c9orf72 FALS（P <.05）和 SALS（P <.01）队列中，还可以明显观察到在 90 到 100 毫秒时去极化阈值电紧张（TEd 90-100 毫秒）的增加。数学模型表明，持续钠（Na+）电导的增加，加上钾（K+）电流的减少，最能解释轴突兴奋性的变化。重要的是，这些轴突兴奋性的异常与运动幅度（τSD：R = -0.38，P <.05 和 TEd 90-100 毫秒：R = -0.44，P <.01）、肌肉无力（TEd 90-100 毫秒：R = -0.32，P <.05）和肌萎缩侧索硬化症功能评定量表（TEd 90-100 毫秒：R = -0.34，P <.05）相关。