Abstract
Place conditioning paradigms are widely used for determining the motivational properties of drugs. Phencyclidine (PCP) has been a common drug of abuse during the past two decades and has a rewarding effect in animals. However, PCP produces place aversion in the conditioned place preference (CPP) task in animals. Here, we report the possible neuronal mechanisms of PCP-induced place aversion and preference in the CPP task in rodents. In naive rats and mice, PCP dose-dependently produced place aversion and PCP had a significant effect at the doses of 4 and 8 mg/kg in rats and mice, respectively. The aversive effect of PCP (4 mg/kg) in rats was significantly attenuated by ritanserin (3 and 10 mg/kg), a serotonin 15-HT2) receptor antagonist whereas the lesion of serotonergic (5-HTergic) neurons by 5,7-dihydroxytryptamine (100 micrograms i.c.v.) and alpha-methyl-rho-tyrosine (AMPT; 100 mg/kg), a tyrosine hydroxylase inhibitor, did not affect the aversive effect of PCP. In rats pretreated with PCP (10 mg/kg/day) for 14 days, tolerance was developed to PCP (4 mg/kg)-induced place aversion. In rats and mice pretreated with PCP (10 mg/kg/day) for 28 days, however, PCP dose-dependently produced place preference but not aversion. The preferred effect of PCP (8 mg/kg) in mice preteated with PCP (10 mg/kg/day for 28 days) was significantly attenuated by AMPT (100 mg/kg) and 6-hydroxydopamine (100 micrograms i.c.v.) a dopaminergic (DAergic) neurotoxin, but not by DSP-4 (30 mg/kg), a noradrenergic neurotoxin and ritanserin. In mice pretreated with methamphetamine (1 mg/kg/day) for 14 days, PCP (8 mg/kg) produced place preference. These findings suggest that 5-HTergic and DAergic systems are involved in the PCP-induced place aversion and preference, respectively, and some changes in the neuronal systems including DAergic systems, induced by repeated PCP treatment play a critical role in the addiction of PCP.
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