Abstract
Systemic (s.c.) administration of α2 agonists clonidine (25-100 μg/kg) or guanfacine (50-400 μg/kg) elicited antinociception as assessed by the cat tail-flick model and potentiated in a dose-dependent manner the antinociceptive effect of etorphine (2.5 μg) administered directly into the periaqueductal gray. Conversely, systemic yohimbine (1 mg/kg) attenuated the effects of central etorphine, and diminished potentiation of etorphine by the α2 agonists. Prior microinjection of clonidine (5μg) or guanfacine (5 μg) into the locus coeruleus (LC) reduced the intensity of central etorphine antinociception whereas central yohimbine (20 μg) pretreatment increased peak antinociceptive activity and prolonged the duration of etorphine. Thus, systemic α2 agonists are inherently antinociceptive and potentiate central narcotic antinociception; however, the site of interaction between α2 agonists and opiates does not appear to be the LC inasmuch as α2 agonists attenuate the antinociceptive effect of etorphine when administered directly into the LC. A spinal site of action is suggested based upon known LC-spinal projections and our experimental observations. © 1984.
Original language | American English |
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Journal | Brain Research |
Volume | 309 |
State | Published - Jan 1 1984 |
Keywords
- cat
- central etorphine antinociception
- locus coeruleus
- periaqueductal gray
- tail-flick procedure
- α2 adrenergic agonists/antagonists
- antinociceptive agent
- clonidine
- etorphine
- guanfacine
- yohimbine
- animal experiment
- central nervous system
- drug efficacy
- drug interaction
- intracerebral drug administration
- locus ceruleus
- nonhuman
- pain
- periaqueductal gray matter
- tail flick test
- therapy
Disciplines
- Medicine and Health Sciences