扩散受限的心肌细胞微环境中膜过程的区室化和核苷酸动力学。
Compartmentation of membrane processes and nucleotide dynamics in diffusion-restricted cardiac cell microenvironment.
机构信息
Marriott Heart Disease Research Program, Division of Cardiovascular Diseases, Mayo Clinic, Rochester, MN, USA.
出版信息
J Mol Cell Cardiol. 2012 Feb;52(2):401-9. doi: 10.1016/j.yjmcc.2011.06.007. Epub 2011 Jun 16.
Abstract
Orchestrated excitation-contraction coupling in heart muscle requires adequate spatial arrangement of systems responsible for ion movement and metabolite turnover. Co-localization of regulatory and transporting proteins into macromolecular complexes within an environment of microanatomical cell components raises intracellular diffusion barriers that hamper the mobility of metabolites and signaling molecules. Compared to substrate diffusion in the cytosol, diffusional restrictions underneath the sarcolemma are much larger and could impede ion and nucleotide movement by a factor of 10(3)-10(5). Diffusion barriers thus seclude metabolites within the submembrane space enabling rapid and vectorial effector targeting, yet hinder energy supply from the bulk cytosolic space implicating the necessity for a shunting transfer mechanism. Here, we address principles of membrane protein compartmentation, phosphotransfer enzyme-facilitated interdomain energy transfer, and nucleotide signal dynamics at the subsarcolemma-cytosol interface. This article is part of a Special Issue entitled "Local Signaling in Myocytes".
摘要
心肌的协调兴奋-收缩偶联需要负责离子运动和代谢物周转的系统有适当的空间排列。调节蛋白和转运蛋白在微解剖细胞成分的环境中定位于大分子复合物内,增加了细胞内扩散屏障,阻碍了代谢物和信号分子的流动性。与细胞质中的底物扩散相比,肌膜下的扩散限制要大得多,可能会使离子和核苷酸的移动受到 10(3)-10(5)倍的阻碍。扩散屏障因此将代谢物隔离在亚膜空间内,从而实现快速和有向的效应器靶向,但阻碍了来自细胞质基质空间的能量供应,这意味着需要有一个分流转移机制。在这里,我们讨论了膜蛋白区室化、磷酸转移酶促进的结构域间能量转移以及亚肌膜-细胞质界面核苷酸信号动力学的原理。本文是题为“心肌细胞内局部信号”的特刊的一部分。
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