Abstract
Differences in antinociceptive (inhibition of tail-flick response) action of morphine and Tyr-D-Ala2-Gly-NMePhe4-ol5 (DAMGO) were demonstrated by intracerebroventricular (i.c.v.) administration of these agonists along with intrathecal (i.t.) administration of a variety of antagonists: yohimbine, methysergide, naloxone and nor-binaltorphimine. Intracerebroventricular morphine analgesia was antagonized by either i.t. yohimbine or methysergide, whereas i.c.v. DAMGO analgesia was only antagonized by i.t. methysergide. Thus, for i.c.v. morphine-induced analgesia, descending spinal noradrenergic and serotonergic systems were involved, whereas for DAMGO analgesia, only the serotonergic system was involved. The dose-response curve for i.c.v. morphine reached a plateau at high doses, whereas i.c.v. DAMGO analgesia peaked at 10 ng and then decreased thereafter, producing a bell-shaped dose-response curve. This decrement in analgesic response could be reversed by low doses of i.t. methysergide and i.t. pindolol. It was concluded that activation of serotonin-1 (5-HT1) receptors plays a role in the decrease in analgesia from high doses of DAMGO. Combinations of i.t. morphine with i.t. 5-HT or i.t. clonidine produced additive or greater analgesic responses. Combinations of i.t. DAMGO with i.t. 5-HT or i.t. clonidine produced less than additive interactions. Part of the latter responses appeared to be due to activation of 5-HT1 receptors; blockade of these receptors by pindolol enhanced i.t. DAMGO-induced analgesia. Morphine and DAMGO differ further because i.c.v. morphine activated a descending antianalgesic pathway mediated by spinal dynorphin A(1-17), whereas i.c.v. DAMGO at a high dose did not. Thus, morphine and DAMGO differ in their modes of antinociceptive action as measured by the tail-flick response.
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