钙离子火花介导的钙离子波跳跃式传播。
Saltatory propagation of Ca2+ waves by Ca2+ sparks.
作者信息
Keizer J, Smith G D, Ponce-Dawson S, Pearson J E
机构信息
Institute of Theoretical Dynamics and Section on Neurobiology, Physiology, and Behavior, University of California, Davis, California 95616 USA.
出版信息
Biophys J. 1998 Aug;75(2):595-600. doi: 10.1016/S0006-3495(98)77550-2.
Abstract
Punctate releases of Ca2+, called Ca2+ sparks, originate at the regular array of t-tubules in cardiac myocytes and skeletal muscle. During Ca2+ overload sparks serve as sites for the initiation and propagation of Ca2+ waves in myocytes. Computer simulations of spark-mediated waves are performed with model release sites that reproduce the adaptive Ca2+ release observed for the ryanodine receptor. The speed of these waves is proportional to the diffusion constant of Ca2+, D, rather than D, as is true for reaction-diffusion equations in a continuous excitable medium. A simplified "fire-diffuse-fire" model that mimics the properties of Ca2+-induced Ca2+ release (CICR) from isolated sites is used to explain this saltatory mode of wave propagation. Saltatory and continuous wave propagation can be differentiated by the temperature and Ca2+ buffer dependence of wave speed.
摘要
钙(Ca2+)的点状释放,即所谓的Ca2+火花,起源于心肌细胞和骨骼肌中规则排列的横管。在Ca2+过载期间,火花作为心肌细胞中Ca2+波起始和传播的位点。利用模拟释放位点进行火花介导波的计算机模拟,这些位点可重现观察到的兰尼碱受体的适应性Ca2+释放。这些波的速度与Ca2+的扩散常数D成正比,而不是像连续可兴奋介质中的反应扩散方程那样与D成正比。一个简化的“激发-扩散-激发”模型,模拟了从孤立位点的Ca2+诱导Ca2+释放(CICR)特性,用于解释这种跳跃式波传播模式。跳跃式和连续波传播可通过波速对温度和Ca2+缓冲剂的依赖性来区分。
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