Articles: narcotic-antagonists.
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J. Pharmacol. Exp. Ther. · Mar 1993
Pharmacological study of 14 beta-(thioglycolamido)-7,8-dihydro-N(cyclopropylmethyl)-normor phinone (N-CPM-TAMO).
Opioid effects of 14 beta-(thioglycolamido)-7,8-dihydro-N(cyclopropylmethyl)- normorphinone (N-CPM-TAMO) were studied in the mouse tail-flick and acetic acid writhing assays. In the tail-flick test, N-CPM-TAMO failed to produce any antinociception after i.c.v. administration of up to 300 nmol. However, pretreatment of mice with N-CPM-TAMO produced a time- and dose-dependent antagonism of morphine-induced antinociception. ⋯ N-CPM-TAMO-induced antinociception was antagonized by coadministration of the kappa-selective antagonist, norbinaltorphimine. Pretreatment of mice with N-CPM-TAMO also produced a time- and dose-dependent antagonism of U50,488-induced antinociception, which lasted up to 72 hr, with a maximal effect at 24 hr after administration. These data indicate that N-CPM-TAMO is a mu-selective, long-term antagonist.(ABSTRACT TRUNCATED AT 250 WORDS)
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Intravenous (i.v.) administration of morphine produces a dose-dependent inhibition of the tail-flick (TF) reflex, depressor response, and bradycardia in the rat. Some of these effects depend on interactions of i.v. morphine with peripheral opioid receptors and the integrity of cervical vagal afferents. The present studies used the relatively specific mu, delta, and kappa opioid receptor agonists (DAGO, DPDPE or U-50,488H) and the relatively specific mu, delta, and kappa opioid receptor antagonists (beta-FNA, naloxonazine, naltrindole or nor-BNI) in either intact rats or rats with bilateral cervical vagotomy (CVAG) to delineate the vagal afferent/opioid-mediated components of these effects. ⋯ The depressor response and bradycardia produced by i.v. U-50,488H were unaffected by bilateral CVAG, but could be antagonized by pre-treatment with either nor-BNI or naloxone. These studies suggest that the vagal afferent-mediated antinociceptive and cardiovascular effects of i.v. morphine are primarily mediated by interactions with low affinity mu 2 opioid receptors.
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The ability of morphine, fentanyl, butorphanol, nalbuphine, and dezocine to compete with radiolabeled ligands for binding at the mu1, mu2, kappa1, and delta opioid receptors and the sigma receptor was characterized. In the absence of sodium, the potency of opioid receptor competition at each receptor site was found to be: mu1-fentanyl > butorphanol > morphine > or = dezocine = nalbuphine; mu2-butorphanol > fentanyl > nalbuphine > morphine = dezocine; kappa1-butorphanol > nalbuphine > morphine > or = dezocine > fentanyl; and delta-butorphanol > nalbuphine > or = dezocine > morphine > fentanyl. For all five compounds, competition at the sigma receptor was weak, with nalbuphine and dezocine having Kis of approximately 0.5 microM and the other opioids having Kis of greater than 1 microM. Since the presence of 100 mM NaCl during the competitive binding decreased the K(i), to varying degrees, of all five opioids at the mu1 and delta receptors and of some of the opioids at the mu2 and kappa1 receptors, the five compounds studied appear to differ in efficacy at the five receptor sites.