L型钙电流恢复与心室复极：跨物种不同QT间期下保留的膜稳定机制

L-type calcium current recovery versus ventricular repolarization: preserved membrane-stabilizing mechanism for different QT intervals across species.

作者信息

Guo Donglin, Zhou Jun, Zhao Xiaojing, Gupta Prasad, Kowey Peter R, Martin Jack, Wu Ying, Liu Tengxian, Yan Gan-Xin

机构信息

Main Line Health Heart Center, Wynnewood, Pennsylvania 19096, USA.

出版信息

Heart Rhythm. 2008 Feb;5(2):271-9. doi: 10.1016/j.hrthm.2007.09.025. Epub 2007 Oct 2.

DOI:10.1016/j.hrthm.2007.09.025

PMID:18242553

Abstract

BACKGROUND

Long QT syndrome is associated with early after-depolarization (EAD) that may result in torsade de pointes (TdP). Interestingly, the corrected QT interval seems to be proportional to body mass across species under physiologic conditions.

OBJECTIVE

The purpose of this study was to test whether recovery of L-type calcium current (I(Ca,L)), the primary charge carrier for EADs, from its inactivated state matches ventricular repolarization time and whether impairment of this relationship leads to development of EAD and TdP.

METHODS

Transmembrane action potentials from the epicardium, endocardium, or subendocardium were recorded simultaneously with a transmural ECG in arterially perfused left ventricular wedges isolated from cow, dog, rabbit, and guinea pig hearts. I(Ca,L) recovery was examined using action potential stimulation in isolated left ventricular myocytes.

RESULTS

The ventricular repolarization time (action potential duration at 90% repolarization [APD(90)]), ranging from 194.7 +/- 1.8 ms in guinea pig to 370.2 +/- 9.9 ms in cows, was linearly related to the thickness of the left ventricular wall among the species studied. The time constants (tau) of I(Ca,L) recovery were proportional to APD(90), making the ratios of tau to APD(90) fall into a relatively narrow range among these species despite markedly different ventricular repolarization time. Drugs with risk for TdP in humans were shown to impair this intrinsic balance by either prolongation of the repolarization time and/or acceleration of I(Ca,L) recovery, leading to the appearance of EADs capable of initiating TdP.

CONCLUSION

An adequate balance between I(Ca,L) recovery and ventricular repolarization serves as a "physiologic stabilizer" of ventricular action potentials in repolarization phases.

摘要

背景

长QT综合征与早期后去极化（EAD）相关，后者可能导致尖端扭转型室速（TdP）。有趣的是，在生理条件下，跨物种校正QT间期似乎与体重成正比。

目的

本研究旨在测试EAD的主要电荷载体L型钙电流（I(Ca,L)）从失活状态恢复的情况是否与心室复极时间匹配，以及这种关系的损害是否会导致EAD和TdP的发生。

方法

在从牛、狗、兔和豚鼠心脏分离的动脉灌注左心室楔形组织中，同步记录心外膜、心内膜或心内膜下的跨膜动作电位和透壁心电图。使用离体左心室肌细胞动作电位刺激来检测I(Ca,L)的恢复情况。

结果

在所研究的物种中，心室复极时间（90%复极时的动作电位时程[APD(90)]），从豚鼠的194.7±1.8毫秒到牛的370.2±9.9毫秒，与左心室壁厚度呈线性相关。I(Ca,L)恢复的时间常数（τ）与APD(90)成正比，尽管心室复极时间明显不同，但这些物种中τ与APD(90)的比值落入相对较窄的范围。在人类中有TdP风险的药物被证明会通过延长复极时间和/或加速I(Ca,L)恢复来损害这种内在平衡，导致能够引发TdP的EAD出现。

结论

I(Ca,L)恢复与心室复极之间的适当平衡是心室动作电位复极期的“生理稳定器”。

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L型钙电流恢复与心室复极：跨物种不同QT间期下保留的膜稳定机制

L-type calcium current recovery versus ventricular repolarization: preserved membrane-stabilizing mechanism for different QT intervals across species.

作者信息

机构信息

出版信息

BACKGROUND

OBJECTIVE

METHODS

RESULTS

CONCLUSION

背景

目的

方法

结果

结论

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