腺苷受体在咖啡因中枢作用中的作用。

Pharmacopsychoecologia Pub Date : 1994-01-01
John W Daly, Dan Shi, Olga Nikodijevic, Kenneth A Jacobson
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引用次数: 0

摘要

咖啡因的行为效应在很大程度上可能是由于拮抗了中枢神经系统中A1-和A2a-受体上的内源性腺苷的作用。咖啡因的其他生化作用机制,如释放细胞内钙、抑制磷酸二酯酶和阻断 GABAA-再感受器的调节位点,需要比与行为刺激相关的微摩尔浓度咖啡因高得多的浓度。不过,微摩尔浓度的咖啡因预计也只会对腺苷受体产生适度的阻断作用。选择性腺苷激动剂和黄嘌呤拮抗剂使人们对腺苷受体亚型的中心作用有了一些了解。因此,黄嘌呤对行为的刺激似乎需要同时阻断 A1 和 A2a 受体。咖啡因对腺苷受体的长期阻断预计会导致中枢受体和途径的改变,而腺苷通过 A1 和 A2a 受体对中枢受体和途径进行调节。事实上,长期服用咖啡因不仅会改变腺苷受体的密度,还会改变肾上腺素能、胆碱能、GABA 能和血清素能受体的密度。对通过多巴胺能和胆碱能途径发挥作用的药物的行为反应也会发生改变。迄今为止,还没有从阻断腺苷受体的角度对咖啡因的急性和慢性效应做出一致的解释。A1 -腺苷受体和 A2a -腺苷受体所支持的途径之间的相互作用,以及腺苷受体对多巴胺能、胆碱能和其他中枢途径的复杂控制,使咖啡因药理学的解释变得更加复杂。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The role of adenosine receptors in the central action of caffeine.

The behavioral effects of caffeine appear likely to be due in large measure to antagonism of the action of endogenous adenosine at A1- and A2a-receptors in the central nervous system. Other biochemical mechanisms of action of caffeine, such as release of intracellular calcium, inhibition of phosphodiesterases and blockade of regulatory sites of GABAA-reccptors, would require much higher concentrations than the micromolar concentrations of caffeine associated with behavioral stimulation. However, micromolar concentrations of caffeine also would be expected to cause only a modest blockade of adenosine receptors. Selective adenosine agonists and xanthine antagonists have provided some insights into central roles for adenosine receptor subtypes. Thus, behavioral stimulation by xanthines appears to require blockade of both A1- and A2a-receptors. Chronic blockade of adenosine receptors by caffeine would be expected to result in alterations in the central receptors and pathways that are regulated by adenosine through A1- and A2a-receptors. Indeed, chronic caffeine docs alter the density not only of adenosine receptors, but also of adrenergic, cholinergic, GABAergic and serotonergic receptors. Behavioral responses to agents acting through dopaminergic and cholinergic pathways arc altered. As yet, a coherent explanation of the acute and chronic effects of caffeine in terms of blockade of adenosine receptors has not emerged. Interactions between pathways subserved by A1 - and A2a-adcnosine receptors complicate attempts to interpret caffeine pharmacology, as does the complex control by adenosine receptors of dopamincrgic, cholinergic and other central pathways.

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