• J. Pharmacol. Exp. Ther. · Oct 1989

    Kappa-opioid receptor-mediated antinociception in the rat. II. Supraspinal in addition to spinal sites of action.

    • M J Millan, A Członkowski, A Lipkowski, and A Herz.
    • Department of Neuropharmacology, Max-Planck-Institut for Psychiatry, Planegg-Martinsried, Federal Republic of Germany.
    • J. Pharmacol. Exp. Ther. 1989 Oct 1;251(1):342-50.

    AbstractThis study examines whether there is a supraspinal, in addition to spinal, component to the antinociceptive actions against heat and pressure stimuli of kappa-opioid receptor agonists (U-69,593, U50,488H, bremazocine and tifluadom) as compared to mu-opioid receptor agonists (Tyr-D-Ala-Gly-NMe-Gly-ol, fentanyl and morphine) in the rat. The antinociception induced by kappa- and mu-opioids (applied s.c.) was unaffected by systemic quaternary naltrexone (50 mg/kg) revealing that it is mediated in the central nervous system. All kappa- and mu-opioids produced dose-dependent antinociception upon intrathecal application, in each case reversible by naloxone (5 mg/kg s.c.). However, intrathecal application of naloxone could only partially (by ca. 50%) antagonize the antinociception evoked by systemically applied U50,488H and morphine: this suggests sites of action in brain in addition to spinal cord for both mu- and kappa-opioids. Intraventricular application of mu-agonists produced maximal, dose-dependent antinociception. All kappa-agonists were also active in producing dose-dependent antinociception although curves were shallow and maximal antinociception could not be attained. The action of tifluadom was shown to be stereospecific. Naltrexone was 10-fold more potent in blocking morphine as compared to U50,488H whereas nor-binaltorphimine, a preferential kappa-antagonist, was 6-fold more potent against U50,488H than morphine. Indeed, whereas a dose of 0.2 mg/kg of naltrexone reversed mu-agonist actions, this dose was inactive against all kappa-agonists: the actions of these could be antagonized only by 2.0 mg/kg. These data indicate that in addition to kappa-receptors in the spinal cord, kappa-receptors in the brain can mediate antinociception against noxious heat and pressure.

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