Differential Distribution of Cardiac Ion Channel Expression as a Basis for Regional Specialization in Electrical Function

Circulation Research: Journal of the American Heart Association Pub Date : 2002-05-17 DOI:10.1161/01.RES.0000018627.89528.6F

G. Schram, M. Pourrier, P. Melnyk, S. Nattel

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引用次数: 413

Abstract

The cardiac electrical system is designed to ensure the appropriate rate and timing of contraction in all regions of the heart, which are essential for effective cardiac function. Well-controlled cardiac electrical activity depends on specialized properties of various components of the system, including the sinoatrial node, atria, atrioventricular node, His-Purkinje system, and ventricles. Cardiac electrical specialization was first recognized in the mid 1800s, but over the past 15 years, an enormous amount has been learned about how specialization is achieved by differential expression of cardiac ion channels. More recently, many aspects of the molecular basis have been revealed. Although the field is potentially vast, an appreciation of key elements is essential for any clinician or researcher wishing to understand modern cardiac electrophysiology. This article reviews the major regionally determined features of cardiac electrical function, discusses underlying ionic bases, and summarizes present knowledge of ion channel subunit distribution in relation to functional specialization.

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心脏离子通道表达的差异分布是电功能区域专门化的基础

心脏电系统的设计是为了确保心脏所有区域的适当收缩速率和时间，这是有效的心脏功能所必需的。良好控制的心电活动依赖于系统各组成部分的特殊特性，包括窦房结、心房、房室结、his -浦肯野系统和心室。心电特化最早是在19世纪中期被认识到的，但在过去的15年里，人们对心脏离子通道的差异表达如何实现特化有了大量的了解。最近，分子基础的许多方面已经被揭示出来。尽管该领域潜力巨大，但对于任何希望了解现代心脏电生理学的临床医生或研究人员来说，对关键要素的欣赏是必不可少的。本文回顾了心脏电功能的主要区域决定特征，讨论了潜在的离子碱，并总结了与功能专门化有关的离子通道亚基分布的现有知识。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Circulation Research: Journal of the American Heart Association

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