大鼠脑中μ、δ和κ阿片受体激动剂作用的微量离子电泳研究
A microiontophoretic study of the actions of mu-, delta- and kappa-opiate receptor agonists in the rat brain.
作者信息
Bradley P B, Brookes A
出版信息
Br J Pharmacol. 1984 Nov;83(3):763-72. doi: 10.1111/j.1476-5381.1984.tb16231.x.
The actions of mu-, delta- and kappa-opiate receptor agonists have been compared on the activity of single neurones in the brain stem, caudate nucleus and hippocampus of the rat, using the technique of microiontophoresis. In the brain stem and caudate nucleus the predominant effect of all the opiate agonists tested was depression of neuronal activity which was antagonized by naloxone. The selectivity of naloxone as an opiate receptor antagonist was indicated by its lack of effect on gamma-aminobutyric acid (GABA)-induced responses. In the hippocampus both mu- and delta-agonists mainly caused an increase in neuronal firing rates, though some neurones were depressed. In contrast, all the kappa-agonists, including the proposed endogenous ligand for the kappa-receptor, dynorphin, caused depression of neuronal activity. All of these effects were antagonized by naloxone. There was a clear distinction in the areas within the hippocampus in which the mu- and delta-agonists produced different effects. Neurones in the pyramidal cell layer were always excited by these drugs, whereas neurones in the granule cell layer of the dentate gyrus were always depressed by the same drug.
利用微离子电泳技术,比较了μ、δ和κ阿片受体激动剂对大鼠脑干、尾状核和海马中单个神经元活性的影响。在脑干和尾状核中,所有测试的阿片激动剂的主要作用是抑制神经元活性,这种抑制作用可被纳洛酮拮抗。纳洛酮作为阿片受体拮抗剂的选择性表现在它对γ-氨基丁酸(GABA)诱导的反应没有影响。在海马中,μ和δ激动剂主要引起神经元放电频率增加,尽管有些神经元受到抑制。相反,所有的κ激动剂,包括推测为κ受体内源性配体的强啡肽,都引起神经元活性的抑制。所有这些作用都被纳洛酮拮抗。μ和δ激动剂在海马内产生不同作用的区域有明显区别。锥体细胞层中的神经元总是被这些药物兴奋,而齿状回颗粒细胞层中的神经元总是被相同药物抑制。
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