应用动作电位钳技术在大鼠心肌细胞上研究人类心力衰竭时的兴奋-收缩偶联。

Excitation-contraction coupling in human heart failure examined by action potential clamp in rat cardiac myocytes.

机构信息

Department of Physiology, Faculty of Medical and Health Sciences, University of Auckland, Private Bag 92019, Auckland, New Zealand.

出版信息

J Mol Cell Cardiol. 2010 Dec;49(6):911-7. doi: 10.1016/j.yjmcc.2010.04.012. Epub 2010 Apr 27.

DOI:10.1016/j.yjmcc.2010.04.012

PMID:20430038

Abstract

The effect of the loss of the notch in the human action potential (AP) during heart failure was examined by voltage clamping rat ventricular myocytes with human APs and recording intracellular Ca(2+) with fluorescent dyes. Loss of the notch resulted in about a 50% reduction in the initial phase of the Ca(2+) transient due to reduced ability of the L-type Ca(2+) channel to trigger release. The failing human AP increased non-uniformity of cytosolic Ca(2+), with some cellular regions failing to elicit Ca(2+)-induced Ca(2+) release from the sarcoplasmic reticulum. In addition, there was an increase in the occurrence of late Ca(2+) sparks. Monte-Carlo simulations of spark activation by L-type Ca(2+) current supported the idea that the decreased synchrony of Ca(2+) spark production associated with the loss of the notch could be explained by reduced Ca(2+) influx from open Ca(2+) channels. We conclude that the notch of the AP is critical for efficient and synchronous EC coupling and that the loss of the notch will reduce the SR Ca(2+) release in heart failure, without changes in (for example) SR Ca(2+)-ATPase uptake.

摘要

通过电压钳制具有人类动作电位（AP）的大鼠心室肌细胞并用荧光染料记录细胞内 Ca(2+)，研究了人类心力衰竭期间 AP 中 Notch 缺失的影响。由于 L 型 Ca(2+)通道触发释放的能力降低，Notch 的缺失导致 Ca(2+)瞬变的初始阶段减少约 50%。衰竭的人类 AP 增加了细胞质 Ca(2+)的非均一性，一些细胞区域未能引发肌浆网的 Ca(2+)-诱导的 Ca(2+)释放。此外，晚期 Ca(2+)火花的发生增加。由 L 型 Ca(2+)电流激活火花的蒙特卡罗模拟支持这样一种观点，即与 Notch 缺失相关的 Ca(2+)火花产生的同步性降低可以通过从打开的 Ca(2+)通道流入的 Ca(2+)减少来解释。我们得出结论，AP 的 Notch 对于有效的和同步的 EC 偶联至关重要，而 Notch 的缺失将减少心力衰竭时 SR Ca(2+)的释放，而不会改变（例如）SR Ca(2+)-ATP 酶摄取。

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应用动作电位钳技术在大鼠心肌细胞上研究人类心力衰竭时的兴奋-收缩偶联。

Excitation-contraction coupling in human heart failure examined by action potential clamp in rat cardiac myocytes.

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