电压感受器突变导致周期性瘫痪的钠通道渗漏,但不会导致肌强直。
Leaky sodium channels from voltage sensor mutations in periodic paralysis, but not paramyotonia.
机构信息
Department of Anesthesiology, UT Southwestern Medical Center, Dallas, TX, USA.
出版信息
Neurology. 2011 May 10;76(19):1635-41. doi: 10.1212/WNL.0b013e318219fb57. Epub 2011 Apr 13.
Abstract
BACKGROUND
Hypokalemic periodic paralysis (HypoPP) is associated with mutations in either the Ca(V)1.1 calcium channel or the Na(V)1.4 sodium channel. Some Na(V)1.4 HypoPP mutations have been shown to cause an anomalous inward current that may contribute to the attacks of paralysis. Herein, we test whether disease-associated Na(V)1.4 mutations in previously untested homologous regions of the channel also give rise to the anomalous current.
METHODS
The functional properties of mutant Na(V)1.4 channels were studied with voltage-clamp techniques in an oocyte expression system.
RESULTS
The HypoPP mutation Na(V)1.4-R1132Q conducts an anomalous gating pore current, but the homologous R1448C mutation in paramyotonia congenita does not.
CONCLUSIONS
Gating pore currents arising from missense mutations at arginine residues in the voltage sensor domains of Na(V)1.4 are a common feature of HypoPP mutant channels and contribute to the attacks of paralysis.
摘要
背景
低钾周期性麻痹(HypoPP)与钙通道(Ca(V)1.1)或钠通道(Na(V)1.4)中的突变有关。一些 Na(V)1.4 HypoPP 突变已被证明会引起异常内向电流,这可能导致麻痹发作。在此,我们测试通道中以前未经测试的同源区域中的疾病相关 Na(V)1.4 突变是否也会引起异常电流。
方法
使用卵母细胞表达系统中的电压钳技术研究突变 Na(V)1.4 通道的功能特性。
结果
HypoPP 突变 Na(V)1.4-R1132Q 传导异常门控孔电流,但先天性肌强直症中的同源 R1448C 突变则不会。
结论
电压传感器域中精氨酸残基的错义突变引起的门控孔电流是 HypoPP 突变通道的共同特征,并导致麻痹发作。
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