Dzieniszewski P, Kilbinger H
Eur J Pharmacol. 1978 Aug 15;50(4):385-91. doi: 10.1016/0014-2999(78)90144-9.
The effects of oxotremorine and atropine on the ACh release evoked from the guinea-pig myenteric plexus by dimethylphenylpiperazinium (DMPP) or by high potassium were investigated. DMPP caused an output of ACh by stimulating nicotine receptors that are probably situated on the soma-dendritic part of the cholinergic neuron. The DMPP-induced release of ACh was dose-dependently inhibited by oxotremorine and increased by atropine. The ACh output evoked by either 45 or 108 mM potassium was enhanced by atropine. Oxotremorine did not affect the ACh release by high potassium but prevented the facilitatory effect of atropine. It is concluded that the inhibitory muscarinic mechanism modulates similarly the ACh release evoked by DMPP or high potassium and the release caused by electrical stimulation. From the experiments with high potassium it is concluded that the inhibitory muscarine receptors are localized at the site of ACh release.
研究了氧化震颤素和阿托品对由二甲基苯基哌嗪鎓(DMPP)或高钾诱发的豚鼠肠肌丛乙酰胆碱(ACh)释放的影响。DMPP通过刺激可能位于胆碱能神经元胞体 - 树突部分的烟碱受体来引起ACh释放。氧化震颤素剂量依赖性地抑制DMPP诱导的ACh释放,而阿托品则使其增加。45 mM或108 mM钾诱发的ACh释放量被阿托品增强。氧化震颤素不影响高钾引起的ACh释放,但可阻止阿托品的促进作用。得出的结论是,抑制性毒蕈碱机制对DMPP或高钾诱发的ACh释放以及电刺激引起的释放具有相似的调节作用。从高钾实验得出的结论是,抑制性毒蕈碱受体位于ACh释放部位。