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Bromocriptine potentiates the behavioural effects of directly and indirectly acting dopamine receptor agonists in mice (1985)

Jenkins, Owen F. ; Jackson, David M.

Springer

Naunyn-Schmiedeberg's archives of pharmacology 331 (1985), S. 7-11

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ISSN: 1432-1912

Keywords: Bromocriptine ; Locomotor activity ; Apomorphine ; Dopamine ; receptors ; Presynaptic ; Postsynaptic ; Dopamine uptake

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary After an initial period of depression which lasted up to 90 min following injection, bromocriptine (BRC, 5–20 mg/kg, IP) produced dose-dependent and long lasting (7 h) locomotor stimulation in mice. The locomotor stimulation was antagonised by reserpine, alpha-methyl-p-tyrosine (AMPT) or haloperidol. The blockade by AMPT of BRC's locomotor stimulant effect was reversed by prior treatment of the mice with a low, behaviourally inactive dose of L-Dopa plus benserazide. In mice pretreated with reserpine, BRC enhanced the stimulant action of d-amphetamine. Moreover, in mice pretreated with reserpine plus AMPT, BRC significantly enhanced the locomotor stimulant effect of apomorphine. This ability of BRC to enhance the effect of apomorphine commenced as soon as 20 min after BRC administration and lasted for at least 8 h. The dopamine (DA) uptake inhibitor and DA receptor agonist nomifensine potentiated and prolonged the stimulant effect of BRC while inhibitor of the neuronal uptake of noradrenaline (desipramine) and 5-hydroxytryptamine (fluoxetine) were without marked effect. The results clearly show that BRC, in behavioural terms, has no efficacy per se at the postsynaptic DA receptor and that it requires either DA or the administration of an exogenous agonist such as apomorphine for the expression of its effects.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00498845

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A functional effect of dopamine in the nucleus accumbens and in some other dopamine-rich parts of the rat brain (1975)

Jackson, David M. ; Andén, Nils-Erik ; Dahlström, Annica

Springer

Psychopharmacology 45 (1975), S. 139-149

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ISSN: 1432-2072

Keywords: Locomotor activity ; Nucleus accumbens ; Caudate nucleus ; Local application ; Dopamine ; Noradrenaline ; Amphetamine ; Neuroleptics

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Dopamine (5 to 50 Μg) applied bilaterally to the nucleus accumbens of reserpine-nialamide pretreated rats produced a marked dose-dependent rise in coordinated locomotor activity, devoid of stereotypies such as gnawing, rearing and licking seen after dopamine application (50 Μg) to the neostriatum. The locomotor activity was completely blocked by pimozide, but not by phenoxybenzamine. The effects of apomorphine or d-noradrenaline were similar to those of dopamine. In contrast, l-noradrenaline produced a “convulsive” syndrome devoid of coordinated locomotor activity, and this convulsive syndrome could be completely blocked by phenoxybenzamine but not by pimozide. Release of endogenous dopamine by d- or l-amphetamine (10 and 50 Μg) in the nucleus accumbens produced a rise in coordinated activity, the d-isomer was about 4 times as potent as the l-isomer, and the effect of the d-isomer was blocked completely by α-methyltyrosine. Bilateral application of trifluoperazine (2.5 Μg) to the nucleus accumbens completely blocked the effect of systemically administered d-amphetamine (1.5 and 3.0 mg/kg), but similar application to the area of the central nucleus of the amygdala or the neostriatum was much less effective. Partial protection of the endogenous dopamine stores against the depleting action of reserpine by local application of metatyramine to the nucleus accumbens resulted in a higher level of basal activity than in control animals. Application of dopamine or noradrenaline to the area of the central nucleus of the amygdala or to the olfactory tubercles did not lead to any consistent changes in locomotor activity. The nucleus accumbens and olfactory tubercles contained most of the dopamine in the limbic forebrain, with noradrenaline more evenly distributed. These data suggest that the nucleus accumbens plays an important role in the locomotor activity in rats.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00429052

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(−)Alprenolol potentiates the disrupting effects of dizocilpine on sensorimotor function in the rat (1997)

Zhang, Jianhua ; Engel, Jörgen A. ; Jackson, David M. ; [et al.]

Springer

Psychopharmacology 132 (1997), S. 281-288

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ISSN: 1432-2072

Keywords: Key words Acoustic startle response ; Prepulse inhibition ; Schizophrenia ; Dopamine ; Serotonin ; Rat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The β-adrenoceptor antagonist as well as serotonin 5-HT1 receptor antagonist, (−)alprenolol, was found to potentiate the disrupting effect of the non-competitive NMDA receptor antagonist, dizocilpine, on prepulse inhibition (PPI) of the acoustic startle response (ASR) in the rat. The facilitating effect of dizocilpine on ASR amplitude was also potentiated by (−)alprenolol. (−)Alprenolol by itself did not affect either of these measures. These effects did not seem to be related to the unselective β-adrenoceptor antagonist property of (−)alprenolol, since combined pretreatment with the β1- and β2-adrenoceptor antagonists, metoprolol and ICI 118551, did not alter the effects of dizocilpine on startle behaviour. However, a serotonergic influence was suggested by the fact that a facilitating effect of dizocilpine on ASR amplitude was also obtained by pretreatment with the 5-HT precursor, L-5-HTP, in benserazide-pretreated rats. Furthermore, pretreatment with the 5-HT2 selective receptor antagonist, MDL 100907, significantly reduced the (−)alprenolol-induced potentiation of the effects of dizocilpine on startle behaviour, while the 5-HT3 selective receptor antagonist, ondansetron, failed to do that. Finally, the (−)alprenolol-induced potentiation of the effects of dizocilpine was significantly reduced by pretreatment with the atypical antipsychotic, clozapine, and by the potential antipsychotic and selective dopamine D2 receptor antagonist, raclopride. This study suggests that altered 5-HT activity may influence the effects of psychotomimetic drugs such as dizocilpine on sensorimotor function, and this observation may have implications for the pharmacological treatment of schizophrenia in humans.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s002130050346

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The demonstration of a change in adrenergic receptor sensitivity in the central nervous system of mice after withdrawal from long-term treatment with haloperidol (1976)

Dunstan, Robin ; Jackson, David M.

Springer

Psychopharmacology 48 (1976), S. 105-114

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ISSN: 1432-2072

Keywords: Apomorphine ; Chronic treatment ; Clonidine ; Dexamphetamine ; Dopamine ; Haloperidol ; Locomotor activity ; Neuroleptic ; Noradrenaline ; Supersensitive receptors

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Mice, administered haloperiodl (3 mg/kg/d) in their drinking water for 21 days, displayed, 4 days after cessation of the haloperidol-treatment, marked locomotor stimulation to clonidine (100 or 500 μg/kg) which lasted for about 6 h. 25 μg clonidine/kg was inactive. Premedication with FLA-63 (25 mg/kg) blocked the difference in stimulation after clonidine between the haloperidol- and vehicle-treated animals, but locomotor activity was still present in both groups. Haloperidol-treated animals displayed a supersensitive response to dexamphetamine. The difference in stimulation produced by dexamphetamine in the two groups was completely blocked by phenoxybenzamine (2.5 mg/kg), phentolamine (10 mg/kg), which drugs did not, however, block the locomotor stimulation produced by dexamphetamine in vehicle-treated animals. Pimozide (3 mg/kg) blocked all locomotor stimulation produced by dexamphetamine in both vehicle- and haloperidol-treated groups, while 1 mg/kg completely blocked the dexamphetamine response in vehicle-treated animals but not in haloperidol-treated animals. FLA-63 (25 mg/kg) blocked the difference in response between the haloperidol- and vehicletreated groups to dexamphetamine, but did not antagonise the stimulation in the vehicle-treated animals. The data suggest that long-term haloperidol treatment leads to the development of “supersensitive” adrenergic receptors in the central nervous system, which, appropriately stimulated, effect an increase in locomotor activity. Moreover, the results indicate that a large component of the supersensitive response to dexamphetamine observed after long-term haloperidol-treatment is due to adrenergic receptor supersensitivity. However, the dopamine receptor (which was shown to be supersensitive to apomorphine) is of fundamental importance because phenoxybenzamine and phenolamine, while blocking the supersensitive response to dexamphetamine, failed to block the response to dexamphetamine in vehicletreated animals, which was, however, blocked by pimozide.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00423315

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