一氧化氮是否参与多他嗪的作用机制?

V D Petkov, S Belcheva, E Konstantinova, V V Petkov
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引用次数: 0

摘要

在大鼠的对比实验中,研究了多他嗪(DOT)和其他物质对偏头痛发作和一氧化氮(NO)代谢的行为和伤害效应。在Opto-Varimex装置中,通过对大鼠的移动和饲养的改变来评估行为效应;对伤害感觉的影响是通过对一只大鼠爪施加机械压力时痛觉阈值的变化来确定的。数据显示:(1)NO不直接参与DOT行为作用的机制。这可能与DOT对其他药物诱导的NO形成变化的调节作用有关;(2) NO系统不参与大鼠爪痛性机械压力反应的机制;(3)促进或抑制偏头痛过程的物质(m-CPP和麦角胺)的行为效应,以及被证明影响NO形成的物质(l -精氨酸、组胺、L-NAME)对这些效应的影响表明,NO在这些促偏头痛和抗偏头痛物质的作用机制中起调节作用,但不是基本因素;(4) DOT的行为作用与抗偏头痛药物麦角胺的作用相似,而与前偏头痛药物间氯苯哌嗪(m-CPP)不同,这表明多塔利嗪具有抗偏头痛活性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Does nitric oxide participate in the mechanism of action of dotarizine?

Behavioral and nociceptive effects of dotarizine (DOT) and other substances acting on migrainous attacks and nitric oxide (NO) metabolism were studied in comparative experiments on rats. Behavioral effects were evaluated by the changes induced in ambulations and rearings of rats in the Opto-Varimex apparatus; effects on nociception were determined by the changes of pain threshold in growing mechanical pressure on one of the rat paw. The data showed that (1) NO did not participate directly in the mechanism of the behavioral actions of DOT. A role could be ascribed to the modulating influence of DOT on the changes in NO formation induced by other agents; (2) the NO system did not participate in the mechanisms of the responses to the painful mechanical pressure on the rat paw; (3) the behavioral effects of the substances with facilitating or inhibitory action on the migrainous process (m-CPP and ergotamine) and the influence of substances proved to affect NO formation (L-arginine, histamine, L-NAME) on these effects suggest a role for NO as a modulating but not a basic factor in the mechanisms of action of these pro- and antimigrainous substances; and (4) the behavioral effects of DOT were similar to the effects of the antimigrainous drug ergotamine and different from the promigrainous drug meta-chlorophenyl-piperazine (m-CPP)--which suggest an antimigrainous activity of dotarizine.

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