The effects of morphine withdrawal and challenge on the alpha-methyl-rho-tyrosine (alpha MT)-induced depletion of dopamine (DA) as well as on DA metabolism and 3H-SCH 23390 and 3H-spiperone binding were studied in the striata of male mice. Morphine was given s.c. 3 times daily for 5 days followed by 1 to 3 days' withdrawal. The alpha MT-induced DA depletion was retarded in mice withdrawn for 1 day from repeated morphine. At this time point the striatal concentrations of 3,4-dihydroxyphenylacetic acid (DOPAC) and homovanillic acid (HVA) fell, too. In mice withdrawn for 3 days from morphine neither DA depletion nor DOPAC or HVA concentrations differed from those of control mice. In control mice acute morphine challenge accelerated the DA depletion at the dose 10 mg/kg but not at the dose 30 mg/kg. Both doses elevated striatal DOPAC and HVA. In mice withdrawn from repeated morphine for 1 day acute morphine partially counteracted the withdrawal-induced retardation of DA depletion and elevated striatal DOPAC and HVA clearly less than in control mice. However, in mice withdrawn for 3 days 10 mg/kg of morphine clearly enhanced DA depletion and its effect on striatal HVA was significantly augmented. In these mice as in controls the 30 mg/kg dose did not alter striatal DA depletion and elevated HVA less than in controls. Acute morphine did not alter striatal 3-methoxytyramine (3-MT) concentration in control mice but at the dose 10 mg/kg increased it in mice withdrawn for 3 days.(ABSTRACT TRUNCATED AT 250 WORDS)
1 Our previous studies suggest that in addition to the cerebral dopaminergic systems the noradrenergic ones have a crucial role in the morphine-induced behavioural sensitization in mice. Therefore the e ects of a 2 -adrenoceptor antagonist, idazoxan (1 and 3 mg kg 71 , i.p.) on morphineinduced locomotor hyperactivity as well as on morphine-induced changes in cerebral noradrenaline (NA) and striatal dopamine (DA) metabolism were studied in mice withdrawn for 3 days from 5 day repeated morphine treatment. The concentrations of NA, free 3-methoxy-4-hydroxyphenylethylene glycol (MOPEG), DA, 3,4-dihydroxyphenylacetic acid (DOPAC), homovanillic acid (HVA), and 3-methoxytyramine (3-MT) were determined. 2 Acute morphine (10 mg kg 71 , s.c.) increased locomotor activity in control and in morphinewithdrawn mice; idazoxan alone did not alter the activity. Idazoxan pretreatment did not alter the locomotor hyperactivity induced by acute morphine in control mice but potentiated it in morphinewithdrawn mice. 3 Acute morphine elevated MOPEG less but increased DOPAC and HVA more clearly in morphine-withdrawn mice than in controls, and decreased 3-MT only in controls. Idazoxan alone did not alter the NA or DA metabolite concentrations in control mice, but elevated MOPEG as well as DOPAC in morphine-withdrawn mice. 4 In control mice idazoxan enhanced acute morphine's elevating e ect on MOPEG. In withdrawn mice idazoxan counteracted the tolerance so that acute morphine elevated MOPEG in these mice to about similar level as in controls. 5 Idazoxan pretreatment abolished the HVA increasing e ect of acute morphine both in control and withdrawn mice. In control mice idazoxan enhanced morphine's elevating e ect on DOPAC and abolished morphine's decreasing e ect on 3-MT. Idazoxan did not alter morphine's e ects on DOPAC or 3-MT concentrations in withdrawn mice. 6 Our results show that in morphine-withdrawn mice idazoxan pretreatment reveals the morphineinduced locomotor sensitization. This most probably occurs by overcoming the tolerance towards the acute morphine-induced increase of cerebral NA turnover and release. It is suggested that in mice the cerebral noradrenergic in addition to the dopaminergic systems are major determinants of the behavioural sensitization to morphine.
The effects of morphine withdrawal and challenge doses (10 or 30 mg/kg) on the alpha-methyl-p-tyrosine (alpha MT)-induced noradrenaline (NA) depletion as well as on the free 3-methoxy-4-hydroxyphenylethylene glycol (MOPEG) concentration were studied in various brain areas of NMRI mice. Morphine was given subcutaneously 3 times daily for 5 days followed by 1 or 3 days' withdrawal. In morphine withdrawn mice the alpha MT-induced NA depletion and the free MOPEG concentrations were differentially altered. At 1-day withdrawal the alpha MT-induced NA depletion was retarded and the NA concentration was elevated in the forebrain area indicating reduced release of NA. Simultaneously, however, the free MOPEG concentration was significantly elevated in the forebrain area and in the lower brain stem suggesting enhanced NA turnover. No withdrawal-induced changes were found in the hypothalamic NA turnover. Acute morphine elevated the free MOPEG concentration and accelerated the alpha MT-induced NA depletion in all brain areas of control mice but not in mice withdrawn for 1 day from repeated morphine treatment. At 3 days' withdrawal, however, the 30 mg/kg morphine dose slightly accelerated the NA depletion in the forebrain area. These results show that morphine withdrawal differentially alters the alpha MT-induced NA depletion and the free MOPEG concentration in various mouse brain areas. These effects are relatively modest suggesting that in mice the noradrenergic mechanisms play a minor role in morphine withdrawal syndrome. However, in all brain areas of the morphine-withdrawn mice tolerance was found towards the NA turnover and release accelerating effect of acute morphine.
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