Carbachol and bradykinin elevate cyclic AMP and rapidly deplete ATP in cultured rat sympathetic neurons.

Cell regulation Pub Date : 1991-01-01 DOI:10.1091/mbc.2.1.13
H S Suidan, R D Murrell, A M Tolkovsky
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引用次数: 8

Abstract

The agonists carbachol (CCh) and bradykinin (BK) and 54 mM KCl (high K+) were among the most potent stimulants of cyclic AMP (cAMP) production in cultured rat sympathetic neurons, measured with the use of a high-fidelity assay developed for small samples. The rise in cAMP evoked by CCh (through muscarinic receptors), BK, and high K+ was inhibited in Ca2(+)-depleted medium (1.3 mM Ca2+ and 2 mM BAPTA or EGTA), which also prevented the sustained rise in [Ca2+]i evoked by each of these stimuli, showing that elevation of cAMP requires extracellular Ca2+ and, possibly, Ca2+ influx. Preliminary results obtained with the novel calmodulin inhibitor CGS 9343B, which blocked the elevation of cAMP, and with the cyclogenase inhibitor indomethacin, which partially blocked the actions of the agonists but not those of high K+, suggest that calmodulin and arachidonate metabolites may be two components of the signaling pathway. In addition to their effects on cAMP metabolism, CCh, muscarine, and BK, but not nicotine, caused a 30-40% decrease in ATP levels. This effect was much greater than that evoked by high K+ and was largely inhibited by CGS 9343B but slightly enhanced in the Ca(+)-depleted medium, showing that agonists are still active in the absence of [Ca2+]o. Thus, agonists that activate phosphoinositide metabolism can also increase cAMP production and substantially deplete cells of ATP. These novel actions may have to be taken into account when the mechanisms by which such agonists regulate cell function are being considered.

Carbachol和缓激肽升高大鼠交感神经元的环AMP,并迅速消耗ATP。
在培养的大鼠交感神经细胞中,激动剂卡巴卡醇(CCh)、缓激肽(BK)和54 mM KCl(高K+)是产生环AMP (cAMP)最有效的刺激剂,使用为小样本开发的高保真度测定法进行测量。CCh(通过毒碱受体)、BK和高K+引起的cAMP升高在Ca2(+)-枯竭的培养基(1.3 mM Ca2+和2 mM BAPTA或EGTA)中被抑制,这也阻止了这些刺激引起的[Ca2+]i的持续升高,表明cAMP的升高需要细胞外Ca2+和可能的Ca2+内流。新的钙调素抑制剂CGS 9343B可以阻断cAMP的升高,而环原酶抑制剂吲哚美辛可以部分阻断激动剂的作用,但不能阻断高K+的作用,初步结果表明,钙调素和四烯酮酸代谢物可能是信号通路的两个组成部分。除了对cAMP代谢的影响外,CCh、muscarine和BK,而不是尼古丁,会导致ATP水平下降30-40%。这一效应远远大于高K+引起的效应,CGS 9343B在很大程度上被抑制,但在Ca(+)缺失的培养基中略有增强,表明在没有[Ca2+]o的情况下,激动剂仍然具有活性。因此,激活磷酸肌肽代谢的激动剂也可以增加cAMP的产生,并大量消耗细胞中的ATP。当考虑这些激动剂调节细胞功能的机制时,可能必须考虑到这些新的作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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