毒蕈碱乙酰胆碱受体的细胞信号传导机制。

A. Lanzafame, A. Christopoulos, F. Mitchelson
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引用次数: 69

摘要

毒蕈碱型乙酰胆碱受体(mAChRs)的信号通路包括几种酶和离子通道。最近的研究揭示了G蛋白α和β - γ亚基的各种亚型在信号传导的起始以及小单体G蛋白Rho在磷脂酶d激活中的作用的重要性,随着各种受体亚型与酶的许多亚型的相互作用的研究,machr对腺苷酸环化酶活性的调节显得更加多样化。G(i/o)的α和β亚基都可能参与其中。一些mAChR反应是由氮神经释放一氧化氮引起的,包括唾液腺分泌和海马慢波活动。machr利用多种细胞内途径激活各种有丝分裂原激活的蛋白激酶。这些激酶参与肾上皮功能的胆碱能调节、淀粉样前体蛋白的分解代谢、海马的长期增强、磷脂酶A的激活(2)和基因诱导。mAChR激活也可以刺激或抑制细胞生长和凋亡,这取决于先前的细胞活性水平。根据最近的研究,mAChR激动剂对离子通道的调制变得越来越复杂。K(+)通道可能被M(2)和M(4) mAChR刺激激活,尽管在大鼠颈上神经节的地形限制似乎限制了对M(2) mAChR的影响。另一种神经节K(+)电流,即M电流,被M(1) mAChR激活所抑制,但在小鼠海马中抑制涉及另一种受体亚型。M(1)和M(2) machr同时促进和抑制r型Ca(2+)通道;活化M(1) machr和抑制M(2) machr的促进作用更为明显。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Cellular signaling mechanisms for muscarinic acetylcholine receptors.
Signaling pathways for muscarinic acetylcholine receptors (mAChRs) include several enzymes and ion channels. Recent studies have revealed the importance of various isoforms of both alpha and betagamma subunits of G proteins in initiation of signaling as well as the role of the small monomeric G protein, Rho, in the activation of phospholipase D. Modulation of adenylyl cyclase activity by mAChRs appears more diverse as the interaction of various receptor subtypes with the many isoforms of the enzyme are studied. Both alpha and beta subunits of G(i/o) may be involved. Some mAChR responses arise through release of nitric oxide from nitrergic nerves, including salivary gland secretion and hippocampal slow wave activity. mAChRs utilize a variety of intracellular pathways to activate various mitogen-activated protein kinases. The kinases are involved in cholinergic regulation of kidney epithelial function, catabolism of amyloid precursor protein, hippocampal long-term potentiation, activation of phospholipase A(2), and gene induction. mAChR activation can also stimulate or inhibit cellular growth and apoptosis, dependent on prior levels of cellular activity. Modulation of ion channels by mAChR agonists appears increasingly complex, based on recent studies. K(+) channels may be activated by M(2) and M(4) mAChR stimulation, although in the rat superior cervical ganglion topographical constraints appear to limit the effect to the M(2) mAChR. Another ganglionic K(+) current, the M current, is inhibited by M(1) mAChR activation, but in murine hippocampus inhibition involves another receptor subtype. R-type Ca(2+) channels are both facilitated and inhibited by M(1) and M(2) mAChRs; facilitation being more pronounced with activation of M(1) mAChRs and inhibition with M(2) mAChRs.
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