I. Jurna et al., DEPRESSION BY MORPHINE-6-GLUCURONIDE OF NOCICEPTIVE ACTIVITY IN RAT THALAMUS NEURONS - COMPARISON WITH MORPHINE, Brain research, 722(1-2), 1996, pp. 132-138
To assess the contribution of the active metabolite of morphine, morph
ine-6-glucuronide (M6G), to the analgesic effect of systemically admin
istered morphine. experiments were carried out on rats under urethane
anesthesia in which nociceptive activity was evoked by electrical stim
ulation of afferent C fibers in the sural nerve and recorded from sing
le neurons in the ventrobasal complex of the thalamus. Intravenous (i.
v.) injections of morphine completely blocked the activity at doses of
500 and 1000 mu g/kg, the ED(50) being 44 mu g/kg, M6G administered b
y i.v. injection reduced the evoked nociceptive activity only by about
40% at 80 and 160 mu g/kg, the ED(50) being 6 mu g/kg. After intrathe
cal (i.t.) injection, morphine produced maximum depression of 55% of t
he control activity at 20 mu g; the ED(50) is 18 mu g. M6G injected i.
t. produced maximum depression of 40% at doses ranging from 0.2 to 10
mu g. The ED(50) of M6G i.t. is below 0.2 mu g. The effects of morphin
e and M6G were reversed by naloxone (200 mu g/kg i.v.). The results sh
aw that M6G is more potent than morphine, regardless of the route of a
dministration, while morphine is more effective when injected i.v. Due
to the low efficacy of M6G, it seems unlikely that this glucuronide c
ontributes substantially to the analgesic effect of morphine when rent
al function is normal. The results also make evident that the maximum
effect of morphine results from an action at spinal and supraspinal si
tes.