通过分子马达调节平滑肌收缩

Tuning smooth muscle contraction by molecular motors.

作者信息

Morano Ingo

机构信息

Max Delbrück Centrum for Molecular Medicine and Humboldt University, Johannes Müller Institute for Physiology, Berlin, Germany.

出版信息

J Mol Med (Berl). 2003 Aug;81(8):481-7. doi: 10.1007/s00109-003-0451-x. Epub 2003 Jul 22.

DOI:10.1007/s00109-003-0451-x

PMID:12879150

Abstract

As in striated muscle, smooth muscle cells (SMC) contract by Ca2+ activated cyclic interaction between actin and type II myosin. However, smooth muscle maintains tone at basal activating Ca2+ and low energetic cost during sustained activation. This review analyzes the regulation of phasic and tonic contraction of SMC on the molecular level. Type II myosin is the molecular motor also of smooth muscle contraction. Six myosin heavy chain (MHC) isoenzymes (four smooth muscle, two nonmuscle) and five myosin light chain (MLC) isoforms (two 17 kDa, two 20 kDa, one 23 kDa) are expressed in SMC. These myosin subunits could be generated by alternative splicing or by differential gene expression. Thus different myosin isoenzymes are generated which may be modified posttranslationally by phosphorylation, affecting the contractile state of the SMC. Furthermore, they may be part of distinct contractile systems which are targeted by different second messenger cascades and are recruited differentially during activation, electromechanical, and pharmacomechanical coupling. Low energy consumption, shortening velocity, and MLC20 phosphorylation at low Ca2+ activation levels during tone maintenance ("latch") could be explained by a switch from smooth muscle myosin to nonmuscle myosin activation upon prolonged activation.

摘要

与横纹肌一样，平滑肌细胞（SMC）通过肌动蛋白和II型肌球蛋白之间的Ca2+激活循环相互作用而收缩。然而，平滑肌在基础激活Ca2+水平下维持张力，并且在持续激活期间能量消耗较低。本综述在分子水平上分析了SMC的相位性和紧张性收缩的调节。II型肌球蛋白也是平滑肌收缩的分子马达。在SMC中表达六种肌球蛋白重链（MHC）同工酶（四种平滑肌型，两种非肌肉型）和五种肌球蛋白轻链（MLC）亚型（两种17 kDa，两种20 kDa，一种23 kDa）。这些肌球蛋白亚基可以通过可变剪接或差异基因表达产生。因此，产生了不同的肌球蛋白同工酶，它们可能在翻译后通过磷酸化进行修饰，影响SMC的收缩状态。此外，它们可能是不同收缩系统的一部分，这些系统受到不同第二信使级联反应的靶向作用，并且在激活、机电耦合和药物机械耦合过程中被不同程度地募集。在张力维持（“闩锁”）期间，低能量消耗、缩短速度以及在低Ca2+激活水平下的MLC20磷酸化可以通过长时间激活后从平滑肌肌球蛋白向非肌肉肌球蛋白激活的转变来解释。

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通过分子马达调节平滑肌收缩

Tuning smooth muscle contraction by molecular motors.

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