Possible mechanisms of action in melatonin reversal of morphine tolerance and dependence in mice

Abstract

In our earlier study, we reported the ability of melatonin to reverse the development of morphine tolerance and dependence in mice. In the present study, we attempted to analyse the possible involvement of putative melatonin receptors, central and peripheral benzodiazepine receptors and the nitric oxide (NO) system in the mechanism of melatonin reversal of morphine tolerance and dependence in mice. Co-administration of l- N G-nitro arginine methyl ester ( l-NAME) or melatonin with morphine during the induction phase (days 1–9) delayed the development of tolerance to the anti-nociceptive action of morphine and also reversed naloxone precipitated withdrawal jumpings. l-arginine administration during the induction phase enhanced the development of tolerance to the anti-nociceptive effect of morphine but had no effect on the naloxone-precipitated withdrawal response. During the expression phase (day 10), acute administration of melatonin or l-NAME reversed, whereas l-arginine facilitated, naloxone-precipitated withdrawal jumping in morphine-tolerant mice, but none of these drugs affected the nociceptive threshold in morphine-tolerant mice. Further, co-administration of melatonin or l-NAME with l-arginine during the induction phase antagonized later the effects on the development of morphine tolerance. Also, prior administration of melatonin or l-NAME reversed the l-arginine potentiation of naloxone-precipitated withdrawal jumping in morphine tolerant mice. Among the antagonists for putative melatonin receptors studied, neither luzindole (melatonin MT 1 and MT 2 receptor antagonist) nor prazosin (melatonin MT 3 receptor antagonist) antagonized the melatonin reversal of morphine tolerance and dependence. 1-(2-Chlorophenyl)- N-methyl- N-(1-methylpropyl)-3-isoquinolinecarboxamide (PK11195), a peripheral but not central benzodiazepine receptor antagonist, flumazenil, partially antagonized the melatonin reversal of naloxone-precipitated withdrawal jumping in morphine-dependent mice, but had no effect on the reversal of morphine tolerance induced by melatonin. Overall, the present observations suggest that the melatonin-induced reversal of morphine tolerance and dependence may involve its ability to suppress nitric oxide synthase (NOS) activity. Further, the melatonin-induced reversal of morphine tolerance and dependence is not mediated through its actions via putative melatonin receptors. The agonistic activity of melatonin towards peripheral benzodiazepine receptors may partially contribute to the suppression of morphine dependence but not to the reversal of tolerance to the analgesic activity of morphine.