Makita Naomasa, Horie Minoru, Nakamura Takeshi, Ai Tomohiko, Sasaki Koji, Yokoi Hisataka, Sakurai Masayuki, Sakuma Ichiro, Otani Hideo, Sawa Hirofumi, Kitabatake Akira
Department of Cardiovascular Medicine, Hokkaido University Graduate School of Medicine, Sapporo, Japan.
Circulation. 2002 Sep 3;106(10):1269-74. doi: 10.1161/01.cir.0000027139.42087.b6.
Subclinical mutations in genes associated with the congenital long-QT syndromes (LQTS) have been suggested as a risk factor for drug-induced LQTS and accompanying life-threatening arrhythmias. Recent studies have identified genetic variants of the cardiac K+ channel genes predisposing affected individuals to acquired LQTS. We have identified a novel Na+ channel mutation in an individual who exhibited drug-induced LQTS.
An elderly Japanese woman with documented QT prolongation and torsade de pointes during treatment with the prokinetic drug cisapride underwent mutational analysis of LQTS-related genes. A novel missense mutation (L1825P) was identified within the C-terminus region of the cardiac Na+ channel (SCN5A). The L1825P channel heterologously expressed in tsA-201 cells showed Na+ current with slow decay and a prominent tetrodotoxin-sensitive noninactivating component, similar to the gain-of-function phenotype most commonly observed for SCN5A-associated congenital LQTS (LQT3). In addition, L1825P exhibited loss of function Na+ channel features characteristic of Brugada syndrome. Peak Na+ current density observed in cells expressing L1825P was significantly diminished, and the voltage dependence of activation and inactivation was shifted toward more positive and negative potentials, respectively.
This study demonstrates that subclinical mutations in the LQTS-related gene SCN5A may predispose certain individuals to drug-induced cardiac arrhythmias.
先天性长QT综合征(LQTS)相关基因的亚临床突变被认为是药物诱导的LQTS及伴随的危及生命的心律失常的危险因素。最近的研究已经确定了心脏钾通道基因的遗传变异,使受影响个体易患获得性LQTS。我们在一名表现出药物诱导的LQTS的个体中发现了一种新的钠通道突变。
一名老年日本女性在使用促动力药物西沙必利治疗期间记录到QT延长和尖端扭转型室速,对其进行了LQTS相关基因的突变分析。在心脏钠通道(SCN5A)的C末端区域发现了一种新的错义突变(L1825P)。在tsA-201细胞中异源表达的L1825P通道显示出钠电流衰减缓慢,且有一个突出的河豚毒素敏感的非失活成分,类似于SCN5A相关先天性LQTS(LQT3)最常见的功能获得表型。此外,L1825P表现出Brugada综合征特征性的功能丧失钠通道特性。在表达L1825P的细胞中观察到的峰值钠电流密度显著降低,激活和失活的电压依赖性分别向更正和更负的电位偏移。
本研究表明,LQTS相关基因SCN5A的亚临床突变可能使某些个体易患药物诱导的心律失常。
