犬心室肌细胞模型中动作电位和钙瞬变的频率依赖性及调节

Rate dependence and regulation of action potential and calcium transient in a canine cardiac ventricular cell model.

作者信息

Hund Thomas J, Rudy Yoram

机构信息

Department of Biomedical Engineering, Washington University, St. Louis, MO 63130-4899, USA.

出版信息

Circulation. 2004 Nov 16;110(20):3168-74. doi: 10.1161/01.CIR.0000147231.69595.D3. Epub 2004 Oct 25.

DOI:10.1161/01.CIR.0000147231.69595.D3

PMID:15505083

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1851913/

Abstract

BACKGROUND

Computational biology is a powerful tool for elucidating arrhythmogenic mechanisms at the cellular level, where complex interactions between ionic processes determine behavior. A novel theoretical model of the canine ventricular epicardial action potential and calcium cycling was developed and used to investigate ionic mechanisms underlying Ca2+ transient (CaT) and action potential duration (APD) rate dependence.

METHODS AND RESULTS

The Ca2+/calmodulin-dependent protein kinase (CaMKII) regulatory pathway was integrated into the model, which included a novel Ca2+-release formulation, Ca2+ subspace, dynamic chloride handling, and formulations for major ion currents based on canine ventricular data. Decreasing pacing cycle length from 8000 to 300 ms shortened APD primarily because of I(Ca(L)) reduction, with additional contributions from I(to1), I(NaK), and late I(Na). CaT amplitude increased as cycle length decreased from 8000 to 500 ms. This positive rate-dependent property depended on CaMKII activity.

CONCLUSIONS

CaMKII is an important determinant of the rate dependence of CaT but not of APD, which depends on ion-channel kinetics. The model of CaMKII regulation may serve as a paradigm for modeling effects of other regulatory pathways on cell function.

摘要

背景

计算生物学是在细胞水平阐明致心律失常机制的有力工具，在细胞水平，离子过程之间的复杂相互作用决定了细胞行为。我们开发了一种新的犬心室心外膜动作电位和钙循环理论模型，并用于研究Ca2+瞬变（CaT）和动作电位时程（APD）频率依赖性的离子机制。

方法与结果

将Ca2+/钙调蛋白依赖性蛋白激酶（CaMKII）调节途径整合到模型中，该模型包括一种新的Ca2+释放公式、Ca2+子空间、动态氯化物处理以及基于犬心室数据的主要离子电流公式。将起搏周期长度从8000毫秒缩短至300毫秒主要通过降低L型钙电流（I(Ca(L))）来缩短APD，此外瞬时外向钾电流（I(to1)）、钠钾泵电流（I(NaK)）和晚钠电流（late I(Na)）也有一定作用。当周期长度从8000毫秒降至500毫秒时，CaT幅度增加。这种正频率依赖性特性取决于CaMKII活性。

结论

CaMKII是CaT频率依赖性的重要决定因素，但不是APD频率依赖性的决定因素，APD频率依赖性取决于离子通道动力学。CaMKII调节模型可作为模拟其他调节途径对细胞功能影响的范例。

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