Psychopharmacology
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Comparative Study
Responses of neurons in dorsal striatum during amphetamine-induced focused stereotypy.
The phase of highly focused, repetitive behavior (stereotypy) induced by amphetamine in rats emerges after an initial period of locomotor activation. To assess the neuronal correlates of this behavioral transition, single-unit activity was recorded from the dorsal striatum of awake, unrestrained rats. Units were first characterized in terms of their responsiveness to spontaneous movement. ⋯ Previous assessments of neuron-behavior relationships have shown that changes in motor-related neuronal activity are not secondary to amphetamine-induced behavioral changes, though this finding may not apply in all cases. At doses capable of eliciting focused stereotypy, therefore, amphetamine appears to trigger a complex pattern of striatal activity that governs the behavioral response. This conclusion supports steadily increasing evidence that the role of striatal neurons in amphetamine-induced focused stereotypy is shaped by multiple synaptic mechanisms.
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The present experiment evaluated the ability of the 5-HT3 antagonist, ondansetron, administered during chronic cocaine administration, to block the development of sensitization and tolerance induced by the intermittent or continuous administration of cocaine, respectively. Rats were pretreated with 40 mg/kg per day cocaine for 14 days by either SC injections or osmotic minipumps, or 0.9% saline, administered by SC injection. During this chronic (cocaine) treatment, all rats received a daily SC injection of 0-1.0 mg/kg ondansetron. ⋯ In contrast, daily injections of ondansetron with cocaine significantly blocked the development of sensitization with an inverted U-shape dose-response curve. In the continuous cocaine group ondansetron injections also attenuated the development of behavioral tolerance. The results therefore indicate that 5-HT3 receptor stimulation during continuous and intermittent cocaine administration is an important link in the development of behavioral tolerance and sensitization.
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Opiate tolerance involves both associative and non-associative changes. However, procedures designed to distinguish between these two processes have rarely been employed when investigating the physiological basis of such plasticity. The present experiments assessed some of the mechanisms contributing to both associative and non-associative decreases in morphine analgesic potency following repeated IV morphine administration (4 days, 5 mg/kg per day). ⋯ NMDA receptors appeared to mediate non-associative changes in drug potency, as rats tested in either context were less tolerant when morphine administration was preceded with the non-competitive NMDA antagonist, MK-801 (2.5 and 5 nmol). Spinal neurotensin antagonism with [D-Trp11]neurotensin (3 pmol) selectively abolished associative tolerance. These findings provide information about the mechanisms of opiate tolerance and support the distinction between associative and non-associative processes underlying these changes.
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This report describes the activity of the antiepileptic agent gabapentin (Neurontin) in animal models predictive of anxiolysis and analgesia. Gabapentin displayed anxiolytic-like action in the rat conflict test, the mouse light/dark box and the rat elevated X-maze with respective minimum effective doses (MEDs) of 3, 10 and 30 mg/kg. Furthermore, gabapentin also induced behavioural changes suggestive of anxiolysis in the marmoset human threat test with a MED of 30 mg/kg. ⋯ Gabapentin has negligible affinity for the strychnine insensitive [3H]glycine binding site. This indicates that the interaction between gabapentin and D-Serine may not involve the NMDA receptor complex. Gabapentin may represent a novel type of anxiolytic and analgesic agent.
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Comparative Study
Risperidone compared with new and reference antipsychotic drugs: in vitro and in vivo receptor binding.
Risperidone and its active metabolite 9-OH-risperidone were compared to reference antipsychotic drugs (haloperidol, pipamperone, fluspirilene, clozapine, zotepine) and compounds under development (olanzapine, seroquel, sertindole, ORG-5222, ziprasidone) for in vitro binding to neurotransmitter receptors in brain tissue and on membranes of recombinant cells expressing cloned human receptors and for in vivo occupancy of neurotransmitter receptors in rat and guinea-pig brain following acute treatment (2 h., s.c.). An ex vivo autoradiography technique was applied to determine the receptor occupancy by the drugs administered in vivo. Of particular interest are the central 5HT2A receptors and D2-type receptors. ⋯ A stronger predominance of 5HT2A versus D2 receptor occupancy combined with a more gradual occupancy of D2 receptors differentiates risperidone and its 9-OH-metabolite from the other antipsychotic compounds in this study. The predominant 5HT2A receptor occupancy probably plays a role in the beneficial action of risperidone on the negative symptoms of schizophrenia, whereas maintenance of a moderate occupancy of D2 receptors seems adequate for treating the positive symptoms of schizophrenia. A combined 5HT2A and D2 occupancy and the avoidance of D2 receptor overblockade are believed to reduce the risk for extrapyra