钠通道相关长QT综合征的多种机制

Multiple mechanisms of Na+ channel--linked long-QT syndrome.

作者信息

Dumaine R, Wang Q, Keating M T, Hartmann H A, Schwartz P J, Brown A M, Kirsch G E

机构信息

Rammelkamp Center for Research, Case Western Reserve University, Cleveland, Ohio, USA.

出版信息

Circ Res. 1996 May;78(5):916-24. doi: 10.1161/01.res.78.5.916.

DOI:10.1161/01.res.78.5.916

PMID:8620612

Abstract

Inheritable long-QT syndrome (LQTS) is a disease in which delayed ventricular repolarization leads to cardiac arrhythmias and the possibility of sudden death. In the chromosome 3-linked disease, one mutation of the cardiac Na+ channel gene results in a deletion of residues 1505 to 1507 (Delta KPQ), and two mutation result in substitutions (N1325S and R1644H). We compared all three mutant-channel phenotypes by heterologous expression in Xenopus oocytes. Each produced a late phase of inactivation-resistant, mexiletine- and tetrodotoxin-sensitive whole-cell currents, but the underlying mechanisms were different at the single-channel level. N1325S and R1644H showed dispersed reopenings after the initial transient, whereas Delta KPQ showed both dispersed reopenings and long-lasting bursts. Thus, two distinct biophysical defects underlie the in vitro phenotype of persistent current in Na+ channel-linked LQTS, and the additive effects of both are responsible for making the Delta KPQ phenotype the most severe.

摘要

遗传性长QT综合征（LQTS）是一种因心室复极延迟导致心律失常和猝死可能性增加的疾病。在与3号染色体相关的该疾病中，心脏钠通道基因的一种突变导致1505至1507位残基缺失（ΔKPQ），两种突变导致氨基酸替换（N1325S和R1644H）。我们通过在非洲爪蟾卵母细胞中的异源表达比较了这三种突变通道的表型。每种突变都产生了一个对失活有抗性、对美西律和河豚毒素敏感的全细胞电流晚期，但在单通道水平上其潜在机制不同。N1325S和R1644H在初始瞬变后表现出分散的重新开放，而ΔKPQ则既表现出分散的重新开放又表现出持久的爆发。因此，两种不同的生物物理缺陷是钠通道相关LQTS体外持续电流表型的基础，两者的累加效应导致ΔKPQ表型最为严重。

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钠通道相关长QT综合征的多种机制

Multiple mechanisms of Na+ channel--linked long-QT syndrome.

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