CB1 receptor mediated analgesia from the Nucleus Reticularis Gigantocellularis pars alpha is activated in an animal model of neuropathic pain
Autor: | D. L. Green, M.H.T. Roberts, J. Azami, R. Monhemius |
---|---|
Rok vydání: | 2001 |
Předmět: |
Agonist
Male Cannabinoid receptor medicine.drug_class Nerve Crush medicine.medical_treatment Morpholines Receptors Drug Pharmacology Naphthalenes Piperidines medicine Noxious stimulus Reaction Time Animals Drug Interactions Rats Wistar Receptors Cannabinoid Molecular Biology Pain Measurement Neurons Analgesics Medulla Oblongata business.industry General Neuroscience Reticular Formation Peripheral Nervous System Diseases Benzoxazines Rats Disease Models Animal Nociception Neuropathic pain Neuralgia Pyrazoles Neurology (clinical) Sciatic nerve Cannabinoid Analgesia Rimonabant business Neuroscience Tail flick test Developmental Biology |
Zdroj: | Brain research. 908(1) |
ISSN: | 0006-8993 |
Popis: | Cannabinoids are known to suppress responses to noxious stimulation in animals and man. Recent research has suggested a role for endogenous cannabinoids in the descending inhibition of dorsal horn cells via a supraspinal site of action. We have recently demonstrated [J. Physiol. 506(2) (1998) 459] that the nucleus reticularis gigantocellularis pars alpha (GiA) is a major source of such descending modulation, and importantly, that this system is activated in response to noxious stimulation. We have therefore investigated the role of CB1 receptor activation in mediating the antinociceptive effects of activation of GiA in models of acute and chronic pain. Microinjections (0.5 microl 60% DMSO) of either WIN 55,212-2 (5 microg, selective CB1 agonist), SR141716A (50 microg, competitive CB1 antagonist), both compounds together, or vehicle alone into GiA were performed prior to these tests in a randomised, blind manner. In control animals, WIN 55,212-2 markedly increased withdrawal latencies in the tail flick test and reduced responses to subcutaneous formalin. These effects were blocked by co-administration of SR141716A. These data suggest that activation of cannabinoid CB1 receptor subtypes in GiA leads to behavioural analgesia. In animals with partial sciatic nerve ligation, microinjection of drugs and injection of formalin were performed contralaterally to the site of ligation. Partial sciatic nerve ligation significantly reduced behavioural responses to contralaterally applied formalin. Microinjection of SR141716A to GiA reversed this inhibition of responses to formalin in animals with partial sciatic nerve ligation. These data provide evidence that endogenous CB1 receptor ligands are involved in GiA mediated antinociception, and that this system is important for the modulation of nociceptive transmission in an animal model of chronic neuropathic pain. |
Databáze: | OpenAIRE |
Externí odkaz: |