Involvement of histamine in naloxone-resistant and naloxone-sensitive models of swim stress-induced antinociception in the mouse.

The antinociceptive activity of histamine in male mice has been demonstrated using chemical and thermal noxious stimuli and its involvement in naloxone-sensitive and naloxone-insensitive models of stress-induced antinociception investigated. In the abdominal constriction test, histamine and dimaprit but not histidine, induced antinociception. Compound 48/80 and H1 antagonists (diphenhydramine, mepyramine and promethazine) and large doses of H2 antagonists (cimetidine and zolantidine) produced antinociception in this test. Antinociception induced by histamine was refractory to mepyramine, metiamide and naloxone. Histamine and non-antinociceptive doses of its antagonists had no influence on the naloxone-resistant warm water swim stress-induced antinociception. In the hot-plate test, histamine agonists, except the H3 agonist (R) alpha-methyl histamine (alpha-MeHA), were antinociceptive but all these agents augmented the naloxone-sensitive room temperature swim stress-induced antinociception, after either intraperitoneal or intraventricular injection. The antinociceptive action of dimaprit was not antagonized by zolantidine which, like other histamine antagonists excluding metiamide, also produced antinociception and enhanced room temperature swim stress-induced antinociception. These findings suggest that histamine is involved in pathways mediating antinociception in the mouse and that such pathways are activated in a naloxone-sensitive model of stress-induced antinociception but not in a naloxone-insensitive model.