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Query: UMLS:C0184567 (
acute pain
)
3,962
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
P2X3 and
P2X2
/3 receptors are highly localized on peripheral and central processes of sensory afferent nerves, and activation of these channels contributes to the pronociceptive effects of ATP. A-317491 is a novel non-nucleotide antagonist of P2X3 and
P2X2
/3 receptor activation. A-317491 potently blocked recombinant human and rat P2X3 and
P2X2
/3 receptor-mediated calcium flux (Ki = 22-92 nM) and was highly selective (IC50 >10 microM) over other P2 receptors and other neurotransmitter receptors, ion channels, and enzymes. A-317491 also blocked native P2X3 and
P2X2
/3 receptors in rat dorsal root ganglion neurons. Blockade of P2X3 containing channels was stereospecific because the R-enantiomer (A-317344) of A-317491 was significantly less active at P2X3 and
P2X2
/3 receptors. A-317491 dose-dependently (ED50 = 30 micromolkg s.c.) reduced complete Freund's adjuvant-induced thermal hyperalgesia in the rat. A-317491 was most potent (ED50 = 10-15 micromolkg s.c.) in attenuating both thermal hyperalgesia and mechanical allodynia after chronic nerve constriction injury. The R-enantiomer, A-317344, was inactive in these chronic pain models. Although active in chronic pain models, A-317491 was ineffective (ED50 >100 micromolkg s.c.) in reducing nociception in animal models of
acute pain
, postoperative pain, and visceral pain. The present data indicate that a potent and selective antagonist of P2X3 and
P2X2
/3 receptors effectively reduces both nerve injury and chronic inflammatory nociception, but P2X3 and
P2X2
/3 receptor activation may not be a major mediator of acute, acute inflammatory, or visceral pain.
...
PMID:A-317491, a novel potent and selective non-nucleotide antagonist of P2X3 and P2X2/3 receptors, reduces chronic inflammatory and neuropathic pain in the rat. 1248 51
Following hints in the early literature about adenosine 5'-triphosphate (ATP) injections producing pain, an ion-channel nucleotide receptor was cloned in 1995, P2X3 subtype, which was shown to be localized predominantly on small nociceptive sensory nerves. Since then, there has been an increasing number of papers exploring the role of P2X3 homomultimer and
P2X2
/3 heteromultimer receptors on sensory nerves in a wide range of organs, including skin, tongue, tooth pulp, intestine, bladder, and ureter that mediate the initiation of pain. Purinergic mechanosensory transduction has been proposed for visceral pain, where ATP released from epithelial cells lining the bladder, ureter, and intestine during distension acts on P2X3 and
P2X2
/3, and possibly P2Y, receptors on subepithelial sensory nerve fibers to send messages to the pain centers in the brain as well as initiating local reflexes. P1, P2X, and P2Y receptors also appear to be involved in nociceptive neural pathways in the spinal cord. P2X4 receptors on spinal microglia have been implicated in allodynia. The involvement of purinergic signaling in long-term neuropathic pain and inflammation as well as
acute pain
is discussed as well as the development of P2 receptor antagonists as novel analgesics.
...
PMID:Purinergic P2 receptors as targets for novel analgesics. 1622 12
