EC:3.4.16.2 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.16.2 (PCP)
3,761 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Phencyclidine (PCP) can induce a model psychosis in humans that mimics the positive and negative symptoms of schizophrenia. The purpose of the present study was to determine whether PCP can induce similar behavioural effects in rats and whether these effects can be alleviated by neuroleptic drug treatment. Rats were tested in the social interaction test, and their behaviour was quantified by an automated video-tracking system and manual scorings of stereotyped behaviour and ataxia. The behavioural effects of different dose- and administration regimes of PCP were initially determined, and it was found that PCP dose-dependently induced stereotyped behaviour and social isolation in the rats. Comparison to clinical studies suggests that these behaviours correspond to certain aspects of the positive and negative symptoms, respectively, of a PCP psychosis in humans. Subsequently, the effects of 3 or 21 days of administration of the antipsychotic drugs haloperidol or clozapine on the behaviour of either vehicle- or PCP-treated rats were determined. Haloperidol did not produce a selective antagonism of PCP, whereas chronic clozapine selectively inhibited the PCP-induced stereotyped behaviour and social isolation. These effects of haloperidol and clozapine suggest that this animal model can determine the effects of neuroleptic drugs on positive and negative symptoms, onset of action, and side-effect profile, including effects on the motor system. Together these data suggest that this may be a possible animal model of the positive and negative symptoms of schizophrenia.
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PMID:Phencyclidine-induced stereotyped behaviour and social isolation in rats: a possible animal model of schizophrenia. 1122 90

5-HT and dopamine receptor antagonists have become widely used as atypical antipsychotics. Although 5-HT(2A) receptor antagonistic activity is thought to contribute to the atypical aspects of these agents, the precise mechanism remains unknown. M100907 (R(+)-alpha(2,3-dimethoxyphenyl)-1-[2(4-fluorophenyl)ethyl)]-4-piperidine -methanol), a selective 5-HT(2A) receptor antagonist, is reported to attenuate phencyclidine (PCP)-induced locomotion in rodents. For the purpose of identifying regions in which M100907 exerts its effect, we investigated the effects of M100907 on PCP-induced Fos expression in rat brain. PCP (5 mg/kg, subcutaneously, s.c.) induced Fos expression in the cingulate cortex area 3, the agranular insular cortex, the piriform cortex, the nucleus accumbens, the anterior paraventricular thalamic nucleus and the ventral lateral septal nucleus. Pretreatment with M100907 (0.5 mg/kg, s.c.) attenuated Fos expression induced by PCP in the nucleus accumbens core, the shell, the agranular insular cortex and the piriform cortex. M100907 did not induce Fos expression in any of the regions investigated including the dorsolateral caudate/putamen when given alone. These results indicate that 5-HT(2A) receptor antagonism attenuates Fos expression in a regionally specific manner in rat brain in the PCP model of psychosis.
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PMID:M100907, a selective 5-HT(2A) receptor antagonist, attenuates phencyclidine-induced Fos expression in discrete regions of rat brain. 1133 50

The clinical similarities between PCP psychosis and schizophrenia have contributed importantly to the development of the glutamate hypothesis of schizophrenia. Sensory gating, as measured by prepulse inhibition of the acoustic startle reflex (PPI), is impaired in patients with schizophrenia. In animals, the noncompetitive NMDA antagonists PCP and ketamine disrupt PPI in a way that resembles the defect seen in schizophrenia. The purpose of this work is to investigate the modulation of sensory gating in humans by subanaesthetic doses of ketamine. 16 healthy male subjects received a 60-min infusion of ketamine (0.5 mg/kg) or normal saline on two separate days in a randomized double-blind crossover design. Clinical ratings and PPI were done during the infusion on both days. Ketamine produced robust clinical effects. Dissociative symptoms as measured by the CADSS increased from 0 +/- 0.0 to 29.3 +/- 14.3; negative symptoms (Affect Rating Scale) increased from 17.2 +/- 0.8 to 24.8 +/- 3.1; and total BPRS scores increased from 18.3 +/- 0.8 to 26.4 +/- 5.1. ANOVAs for these ratings were all significant at the p <.000 level, although BPRS increases were not in the range seen in decompensated schizophrenic patients. The amplitudes of the startle responses to pulse-alone stimuli were not significantly different on ketamine and placebo days. Ketamine did not cause disruption in PPI as expected. On the contrary, in the first block of the PPI session ketamine significantly enhanced PPI (ANOVA; F=6.15, p =.026). These results indicate that the clinical effects of ketamine are not coupled with schizophrenic-like disruption of PPI in normal controls.
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PMID:Clinical and sensorimotor gating effects of ketamine in normals. 1137 20

Functional dopaminergic hyperactivity is a key feature of schizophrenia. Recent in vivo imaging studies have demonstrated greater striatal dopamine release in response to amphetamine challenge in schizophrenia subjects than in normal controls. N-methyl-D-aspartate (NMDA) receptors are known to play a prominent role in regulation of striatal dopamine release. In humans, NMDA antagonists induce a psychotic state that closely resembles schizophrenia. The present study investigates the degree to which chronic continuous administration of the NMDA antagonist phencyclidine (PCP) induces schizophrenia-like hyperreactivity of striatal dopamine release to amphetamine in rodents. Rats were treated with 10 or 15 mg/kg/d PCP for two weeks by osmotic minipump, and striatal dopamine release to amphetamine challenge (1 mg/kg) was monitored by microdialysis. PCP-treated rats showed significant enhancement in amphetamine-induced dopamine release, along with significantly enhanced locomotor activity. These findings support the concept that NMDA receptor dysfunction may contribute to dopaminergic dysfunction in schizophrenia.
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PMID:Continuous phencyclidine treatment induces schizophrenia-like hyperreactivity of striatal dopamine release. 1142 99

Recent animal studies regarding phencyclidine (PCP), which induces psychotic symptoms in humans, have suggested that group II metabotropic glutamate receptors (mGluRs) represent a novel target for the treatment of PCP psychosis. In the present study, we used in situ hybridization to investigate the gene expressions of the mGluR 1-5 subtypes following single and repeated administration of PCP in rats. A single administration of PCP (7.5mg/kg, i.p.,) resulted in a significant decrease in the mGluR5 mRNA expression of group I mGluR in the subcortical regions (thalamus (-15%), central gray (-23%), inferior colliculus (-23%), and nucleus accumbens (-10%)) and hippocampal formation (CA1 (-14%), CA2 (-15%), CA3 (-18%), and dentate gyrus (-18%)). After repeated PCP administration for 14 days, the mGluR2 mRNA expression of group II mGluR in the anterior cingulate cortex (-23%) and the mGluR4 mRNA expression of group III mGluR in the cortical regions (parietal (-11%), temporal (-13%) and entorhinal cortices (-18%)), the caudate putamen (-12%), thalamus (-17%), and subiculum (-25%) were significantly decreased. These results indicate that PCP affects not only group II mGluR but also group I and III of mGluR, and it is of particular interest that mGluR2 subtype is involved in a development of behavioral abnormality following repeated PCP administration. Single and repeated administrations of PCP independently regulate the expression of mGluR subtypes of mRNA in the brain.
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PMID:Effects of single and repeated phencyclidine administration on the expression of metabotropic glutamate receptor subtype mRNAs in rat brain. 1142 1

This study evaluates the effects of ketamine on healthy and schizophrenic volunteers (SVs) in an effort to define the detailed behavioral effects of the drug in a psychosis model. We compared the effects of ketamine on normal and SVs to establish the comparability of their responses and the extent to which normal subjects might be used experimentally as a model. Eighteen normal volunteers (NVs) and 17 SVs participated in ketamine interviews. Some (n = 7 NVs; n = 9 SVs) had four sessions with a 0.1-0.5 mg/kg of ketamine and a placebo; others (n = 11 NVs; n = 8 SVs) had two sessions with one dose of ketamine (0.3 mg/kg) and a placebo. Experienced research clinicians used the BPRS to assess any change in mental status over time and documented the specifics in a timely way. In both volunteer groups, ketamine induced a dose-related, short (<30 min) increase in psychotic symptoms. The scores of NVs increased on both the Brief Psychiatric Rating Scale (BPRS) psychosis subscale (p =.0001) and the BPRS withdrawal subscale (p =.0001), whereas SVs experienced an increase only in positive symptoms (p =.0001). Seventy percent of the patients reported an increase (i.e., exacerbation) of previously experienced positive symptoms. Normal and schizophrenic groups differed only on the BPRS withdrawal score. The magnitude of ketamine-induced changes in positive symptoms was similar, although the psychosis baseline differed, and the dose-response profiles over time were superimposable across the two populations. The similarity between ketamine-induced symptoms in SVs and their own positive symptoms suggests that ketamine provides a unique model of psychosis in human volunteers. The data suggest that the phencyclidine (PCP) model of schizophrenia maybe a more valid human psychosis/schizophrenia drug model than the amphetamine model, with a broader range of psychotic symptoms. This study indicates that NVs could be used for many informative experimental psychosis studies involving ketamine interviews.
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PMID:Effects of ketamine in normal and schizophrenic volunteers. 1155 59

N-methyl-D-aspartate (NMDA) receptor antagonists such as phencyclidine (PCP) and ketamine have been known to cause schizophrenia-like psychosis (positive symptoms, negative symptoms, cognitive dysfunction) in humans. A dysfunction of glutamatergic neurotransmission may play an important role in the pathophysiology of schizophrenia. In this review, the glutamate hypothesis of schizophrenia, especially the mechanism of neurotoxicity of NMDA receptor antagonist in the posterior cingulate cortex and retrosplenial cortex of the brain, is summarized. Furthermore, the roles of the posterior cingulate cortex and the retrosplenial cortex in the pathophysiology of schizophrenia and Alzheimer's disease are also discussed. Moreover, the glycine site of the NMDA receptor, metabotropic glutamate receptor, AMPA receptor, and antioxidant glutathione as novel potential targets for the treatment of schizophrenia are discussed.
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PMID:[Glutamate hypothesis of schizophrenia and targets for new antipsychotic drugs]. 1191 7

Phencyclidine (PCP) abuse usually causes a short, self-limited period of intoxication but may lead to a prolonged psychosis, poorly responsive to antipsychotic medications. Prior reports indicate that electroconvulsive therapy (ECT) is a safe, rapidly effective treatment in such cases, but longer-term outcome has not been studied. We report three cases of PCP-associated psychosis that did not respond to at least 2 weeks of antipsychotic treatment but subsequently responded rapidly to ECT. Follow-up at 14 to 21 months after treatment show that recovery was maintained except in one subject who relapsed after continuing to abuse PCP. ECT should be considered as a treatment early in the course of drug-associated psychoses in which an adequate trial of antipsychotic medication has not been effective.
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PMID:Treatment of Phencyclidine-Associated Psychosis with ECT. 1194 Sep 70

MS-377 ((R)-(+)-1-(4-chlorophenyl)-3-[4-(2-methoxyethyl)piperazin-1-yl]methyl-2-pyrrolidinone L-tartrate) is a antipsychotic agent that binds to sigma-1 receptor. MS-377 showed anti-dopaminergic and anti-serotonergic activities and antagonistic action against phencyclidine (PCP)-induced behaviors in an animal model. These anti-psychotic activities of MS-377 are attributable to association with sigma-1 receptor. However, the mechanism by which the sigma-1 receptor ligands exact those numerous effects remains to be elucidated. In the present study, we evaluated the effect of MS-377 on N-methyl-D-aspartate (NMDA) receptor ion-channel complex in primary cultured rat neuronal cells. First, we examined the effect of MS-377 on NMDA-induced Ca2+ influx with fura-2/ AM loaded cells. MS-377 showed no effects on the basal Ca2+ concentration and NMDA-induced Ca2+ influx by itself PCP and SKF-10047 reduced the NMDA-induced increase in intracellular Ca2+ concentration. Pre-incubation of 1 microM MS-377 was found to significantly block the reduction by PCP or SKF-10047 of the NMDA-induced Ca2+ influx. Second, the effect of MS-377 on [3H]MK-801 intact cell binding was examined. PCP, haloperidol and (+)-pentazocine inhibited [3H]MK-801 binding, although MS-377 showed no effect by itself Pre-treatment of MS-377 markedly reversed the inhibition of [3H]MK-801 binding by PCP in a dose-dependent manner. These effects of MS-377 may depend on its affinity for the sigma-1 receptor, because MS-377 is a selective sigma-1 receptor ligand without any affinity for NMDA receptor ion-channel complex. These observations suggest that the MS-377 indirectly modulated the NMDA receptor ion-channel complex, and the anti-psychotic activities of MS-377, in part, are attributable to such on action via sigma-1 receptor.
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PMID:MS-377, a selective sigma receptor ligand, indirectly blocks the action of PCP in the N-methyl-D-aspartate receptor ion-channel complex in primary cultured rat neuronal cells. 1199 Dec 51

Repeated exposure to psychomotor stimulants produces long-lasting molecular, cellular and locomotor behavioral changes. Such changes are likely to contribute to the development of drug addiction and psychosis. It is not clear whether these durable changes are accompanied by lasting changes in cognition. We examined the long-term effects of repeated treatment with phencyclidine (PCP) or amphetamine on working memory, using a discrete, paired-trials, delayed-alternation task sensitive to the acute effects of PCP and amphetamine, and to the integrity of the prefrontal cortex. Twice daily treatment with PCP (5.0 mg/kg) or amphetamine (2.5 mg/kg) for 5 days did not produce lasting, significant impairments in alternation performance in comparison to either pre-treatment baseline performance or to the vehicle-treated group. Subsequent challenge doses of PCP (1, 3 and 5 mg/kg) produced alternation deficits in vehicle, PCP, and amphetamine pre-treated groups that were dependent on dose, but not on pre-treatment regimen. However, rats pre-treated with PCP showed a trend towards sensitization in response to PCP challenge. The present data suggest that psychostimulant treatment regimens that are reported to produce long-lasting changes in neural morphology and locomotor behavior may not produce equally durable changes in working memory.
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PMID:Effects of repeated treatment with amphetamine or phencyclidine on working memory in the rat. 1219 13

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