P2X Receptors and Nociception

同色 致电离效应 受体 神经科学 伤害 伤害感受器 代谢受体 细胞生物学 化学 药理学 生物 谷氨酸受体 生物化学 蛋白质亚单位 基因
作者
Boris A. Chizh,Péter Illés
出处
期刊:Pharmacological Reviews [American Society for Pharmacology and Experimental Therapeutics]
卷期号:53 (4): 553-568 被引量:264
标识
DOI:10.1016/s0031-6997(24)01512-6
摘要

The potential importance for nociception of P2X receptors, the ionotropic receptors activated by ATP, is underscored by the variety of pain states in which this endogenous ligand can be released. Several important findings have been made recently indicating that P2X receptors can be involved in pain mechanisms both centrally and in the periphery. The roles of ATP at these two sites and the P2X receptor subtypes involved appear to be different. In the periphery, ATP can be released as a result of tissue injury, visceral distension, or sympathetic activation and can excite nociceptive primary afferents by acting at homomeric P2X(3) or heteromeric P2X(2/3) receptors. Centrally, ATP released from central afferent terminals or second order neurons can modulate neurotransmitter release or postsynaptically activate neurons involved in central nociceptive transmission, with P2X(2), P2X(4), P2X(6), and some other receptors being potentially involved. Evidence from in vivo studies suggests that peripheral ATPergic mechanisms are most important under conditions of acute tissue injury and inflammation whereas the relevance of central mechanisms appears to be more limited. Furthermore, the release of ATP and P2X receptor-mediated afferent activation appear to have been implicated in visceral and neuropathic pain; the importance of the ATPergic component in these states needs to be investigated further. Thus, peripheral P2X receptors, and homomeric P2X(3) and/or heteromeric P2X(2/3) receptors in particular, constitute attractive targets for analgesic drugs. The development of selective antagonists of these receptors, suitable for a systemic in vivo use although apparently difficult, may prove a useful strategy to generate analgesics with a novel mechanism of action.
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