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)

NADPH-d (nicotinamide-adenine dinucleotide phosphate-diaphorase) neurons are thought to migrate improperly during development in the brains of schizophrenic patients. This enzyme is a nitric oxide synthase (NOS). Nitric oxide (NO) is known to affect neurodevelopmental processes in the CNS. Therefore, we hypothesized that interference of NO generation during development may produce some aspects of schizophrenia symptomatology in a rat model. In these experiments, neonatal rats were challenged with a NOS inhibitor (L-nitroarginine 1-100 mg/kg s.c.) daily on post-natal days 3-5. L-Nitroarginine (L-NoArg) treated male rats developed a hypersensitivity to amphetamine in adulthood versus vehicle treated controls, whereas female rats did not. However, L-NoArg treated female rats developed a hypersensitivity to phencyclidine (PCP) at juvenile and adult ages versus vehicle treated controls, whereas male animals did not. L-NoArg treated male rats also had deficits in pre-pulse inhibition of startle whereas adult female rats did not. The results are discussed in terms of a new neurodevelopmental model of schizophrenia and male/female differences inherent in this disease.
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PMID:On the effect of neonatal nitric oxide synthase inhibition in rats: a potential neurodevelopmental model of schizophrenia. 1047 Oct 83

Phencyclidine (PCP) and other NMDA receptor antagonists such as ketamine induce psychotic symptoms that are difficult to reverse with current medications and which closely resemble those of schizophrenia. This study investigated the behavioral effects of continuous PCP administration in six socially-housed Cebus apella monkeys. Chronic treatment was associated with a sustained decrease in stereotyped locomotion (pacing) and a sustained increase in scanning behavior. Treatment was also associated with a modest decrease in self- and environment-directed behavior and goal-directed locomotion and an increase in affiliative behavior at lower doses. Four animals had one or more episodes of extreme motoric and physiological responses precipitated by stressful events. The results indicate that behavioral effects of chronic PCP in primates differ from those seen following acute treatments and represent an appropriate model system for new antipsychotic drug development.
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PMID:Behavioral effects of chronic phencyclidine in monkeys. 1051 41

This is a review on the recent results of research on sigma-receptor antagonists. NE-100, a selective sigma1-receptor antagonist, shows improvement of abnormal behaviors and cognitive dysfunction induced by phencyclidine (PCP). However, NE-100 does not inhibit dopamine agonist-induced behaviors nor induces catalepsy. The mode of action of NE-100 is estimated to be the indirect modulation of the NMDA/PCP-receptor ion channel complex and the modulation of dopamine release from the dopaminergic nerve terminals. The recently reported MS-355/MS-377, which is also a selective sigma1-receptor antagonist, has a similar pharmacological profiles as NE-100, but in addition, MS-355/MS-377 inhibits methamphetamine-induced formation of reversal tolerance and also inhibits apomorphine-induced climbing behavior like dopamine D2-receptor antagonists. The report on clinical trial targeting schizophrenia shows results on rimcazole, remoxipride, BMY 14802, panamesine (EMD 57445) and SL 82.0715. Rimcazole was effective in the open study, but the double blind trial was discontinued due to seizure induction. Remoxipride showed efficacy different from those of dopamine D2-receptor antagonists (less extrapyramidal adverse effects), but the trial was discontinued due to occurrence of aplastic anemia. Panamesine and SL 82.0714 showed favorable efficacy in the open studies, but BMY 14802 showed no efficacy in clinical trials.
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PMID:[Atypical antipsychotic profiles of sigma receptor ligands]. 1056 61

1. Systemic administration of PCP (7.5 mg/kg, i.p.) produced a greater increase in extracellular DA levels in the mPFC than in the STR and NAC, as determined by in vivo microdialysis of awake, freely moving rats. Preferential activation by PCP of prefrontal DA neurons may be, at least in part, the basis for the pathophysiology of PCP-induced psychosis as well as schizophrenia. 2. Recent studies suggest a possible involvement of 5-HT2A receptors in the pathophysiology and treatment of schizophrenia. This study was designed to examine whether and how 5-HT2A receptors modulate PCP-induced DA release in the mPFC. 3. The 5-HT2A/2C receptor agonist (+/-)-DOI (2.5 mg/kg, but not 0.75 mg/kg, i.p.), administered 60 min prior to PCP, significantly attenuated the PCP-induced increase in extracellular DA levels. Pretreatment of the 5-HT2A/2C receptor antagonist ritanserin (1.0 and 5.0 mg/kg, i.p.), administered 60 min prior to PCP, did not influence the PCP-induced increase. When administered alone, neither DOI (2.5 mg/kg) nor ritanserin (1.0 mg/kg) affected basal extracellular DA levels in the mPFC. 4. The NMDA receptor antagonist MK-801 (1.0 mg/kg, i.p.) also increased extracellular DA levels in the mPFC, but this effect was unaffected by pretreatment with DOI (2.5 mg/kg). 5. These results suggest that the stimulation of 5-HT2A/2C receptors may inhibit DA release in the mPFC when it is facilitated by PCP. Other than the NMDA receptor-mediated mechanism may also be involved in the neurochemical interaction between 5-HT2A receptors and PCP in the mPFC.
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PMID:Effects of the serotonin2A/2C receptor agonist and antagonist on phencyclidine-induced dopamine release in rat medial prefrontal cortex. 1058 47

Several decades of research attempting to explain schizophrenia in terms of the dopamine hyperactivity hypothesis have produced disappointing results. A new hypothesis focusing on hypofunction of the NMDA glutamate transmitter system is emerging as a potentially more promising concept. In this article, we present a version of the NMDA receptor hypofunction hypothesis that has evolved from our recent studies pertaining to the neurotoxic and psychotomimetic effects of PCP and related NMDA antagonist drugs. In this article, we examine this hypothesis in terms of its strengths and weaknesses, its therapeutic implications and ways in which it can be further tested.
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PMID:NMDA receptor hypofunction model of schizophrenia. 1062 29

We investigated the effects of a schizophrenomimetic drug, phencyclidine (PCP), on substance P (SP) contents in the discrete rat brain areas using an enzyme-immunoassay for SP. The acute intraperitoneal (i.p.) administration of PCP (10 mg/kg), which is a noncompetitive antagonist of the N-methyl-D-aspartate (NMDA) type glutamate receptor and a dopamine uptake inhibitor, reduced the concentration of the peptide in the prefrontal cortex, limbic forebrain, striatum, and substantia nigra, but not in the ventral tegmental area, at 60 or 120 min postinjection. A selective noncompetitive NMDA antagonist, dizocilpine hydrogen maleate ((+)-MK-801) (1 mg/kg, i.p.), also caused a decrease in the SP content in the prefrontal cortex and limbic forebrain but failed to alter the content in the other areas studied 30 min thereafter. Dopamine agonists, methamphetamine (4.8 mg/kg, i.p.) and apomorphine (4.4 mg/kg, i.p.), diminished the SP contents in the striatum and substantia nigra 60 min after their injection without effects in the prefrontal cortex, limbic forebrain, and ventral tegmental area. Furthermore, pretreatment with haloperidol (1 mg/kg, i.p.), a D2 preferable dopamine receptor antagonist and a typical antipsychotic, blocked the ability of PCP to decrease the SP concentrations in the substantia nigra but not in the prefrontal cortex. PCP, therefore, might diminish the SP levels by NMDA receptor-mediated and dopamine-independent mechanisms in the prefrontal cortex and limbic forebrain, but by NMDA receptor-independent and dopamine-dependent mechanisms in the striatum and substantia nigra. The haloperidol-insensitive reduction of the frontal SP could be involved in certain neuroleptic-resistant symptoms of PCP-treated animals, PCP psychosis, or schizophrenia.
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PMID:Differential effects of haloperidol on phencyclidine-induced reduction in substance P contents in rat brain regions. 1065 39

NMDA antagonists and dopamine (DA) agonists produce neuropathological and/or behavioral changes in rats that may model specific abnormalities in schizophrenia patients. In adult rats, NMDA antagonists and DA agonists disrupt sensorimotor gating-measured by prepulse inhibition (PPI)-modeling PPI deficits in schizophrenia patients. In addition, high doses of NMDA antagonists produce limbic system pathology that may model neuropathology in schizophrenia patients. We examined these behavioral and neuropathological models across development in rats. Both the NMDA antagonist phencyclidine (PCP) and the DA agonist apomorphine disrupted PPI in 16 day pups, demonstrating early developmental functionality in substrates regulating these drug effects on PPI. In contrast, PCP neurotoxicity was evident only in adult rats. Brain mechanisms responsible for the PCP disruption of PPI, and PCP-induced neurotoxicity, are dissociable across development.
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PMID:Ontogeny of phencyclidine and apomorphine-induced startle gating deficits in rats. 1068 85

Clinical studies utilizing imaging techniques demonstrate that classical antipsychotic drugs, such as haloperidol, in clinically effective doses display around 75% dopamine (DA)-D(2) receptor occupancy in the brain. In contrast, the atypical antipsychotic drug clozapine is even more effective at only about 45% D(2)-receptor occupancy. Yet at this D(2)-receptor occupancy classical antipsychotics are not effective, raising the question of which other receptors may be involved in mediating the atypical antipsychotic profile of clozapine and other atypical antipsychotics. The present paper describes experimental work aimed at elucidating this critical question, utilizing the phencyclidine (PCP) model of schizophrenia in combination with studies of typical and atypical antipsychotics as well as various specific receptor blocking agents. Both electrophysiological methods, i.e. single cell recording from DA neurons in the ventral tegmental area (VTA), and biochemical analysis of biogenic amines such as DA following microdialysis in difference DA terminal areas in the brain, were used. In addition, behavioural measurements using the conditioned avoidance response (CAR) paradigm and assessments of locomotor activity were utilized. Experiments with functional inactivation of the medial frontal cortex (mPFC) in the rat as well as with MK-801 and other antagonists at central NMDA-receptors revealed that following systemic administration of schizophrenomimetic NMDA-receptor antagonists a profound dysregulation of the mesocorticolimbic DA system occurs, severely impairing the dynamic physiological response range of the neurons. Specifically, DA neurons which largely project to the mPFC showed a profound loss of burst firing, whereas VTA-DA neurons, which mainly project subcortically, showed an increased monotonous high-frequency firing with increased DA output from nerve terminals and concomitant behavioural activation. Significantly, drugs with a prominent 5-HT(2A)-receptor blocking action could effectively restore the burst firing mode, i.e. phasic responsivity, in mesocortically projecting DA neurons, and also potentiate the CAR suppressant effect of the selective D(2)/D(3)-receptor antagonist raclopride without increasing catalepsy scores. The selective alpha(1)-adrenoreceptor antagonist prazosin effectively suppressed both the stereotyped, high-frequency firing of subcortically projecting DA neurons following systemic MK-801 and the concomitant behavioural, i.e. locomotor, activation. In addition, the MK-801 evoked DA release in the nucleus accumbens was suppressed. A similar effect was seen also with AMPA-receptor antagonists when applied locally into the VTA and, in addition, systemic administration of chemically different AMPA-receptor antagonists caused a CAR-suppressant effect similar to both classical and atypical antipsychotic drugs. These results and other data showing a clearcut difference between typical and atypical antipsychotic drugs on DA output in the shell and core, respectively, of the nucleus accumbens, suggest that both the 5-HT(2A)- and the alpha(1)-adrenoreceptor blocking effects of a number of atypical antipsychotic drugs in all probability contribute to their antipsychotic effect. Moreover, our results indicate that AMPA-receptor antagonists may possess an atypical antipsychotic profile.
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PMID:Dysfunctional brain dopamine systems induced by psychotomimetic NMDA-receptor antagonists and the effects of antipsychotic drugs. 1071 59

1. Phencyclidine (PCP), a non-competitive NMDA-receptor antagonist, is able to induce schizophrenia-like symptoms in animals and in humans. It is known that schizophrenic patients have deficits in memory processes. 2. Therefore, it was investigated whether subchronic pulsatile or continuous application of 5.0 mg kg(-1) PCP over 5 days induce short-term memory deficits in holeboard learning and the action of two different neuroleptics on this behavioural test. 3. First, an impairment in the holeboard task was described when the animals were tested 24 h after the last application but not after 15 min or 1 h after the last injection. Secondly, the influence of haloperidol and risperidone on the PCP-induced short-term memory changes was tested. 4. The combined application of PCP and risperidone led to a complete antagonism of the short-term deficits, but the combined treatment with haloperidol was accompanied by a partial abolishment of the PCP-induced deficits. 5. PCP led to an upregulation of the glutamate binding sites in striatum and nucleus accumbens whereas the D(2) binding sites were reduced in striatum. The D(1) binding sites seem to be unchanged. The receptor protein expression of glutamate receptors mGluR1, GluR2, GluR5/7 and NMDAR1 were not modified in response to PCP treatment. 6. The determination of a subpopulation of GABAergic interneurons shows a decrease of the cells within the CA3 of the hippocampal formation. 7. These findings indicate that PCP induced impairments in short term memory can be detected by holeboard learning and may provide an interesting tool for the search of new neuroleptics.
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PMID:Neuroleptics ameliorate phencyclidine-induced impairments of short-term memory. 1078 Sep 95

Drugs such as PCP and MK-801 can cause psychotic reactions in humans by antagonizing NMDA receptors. This action is ultimately toxic to certain cortical neurons and may be one mechanism underlying neurodegenerative diseases, including schizophrenia. It has been reported that hallucinogens such as LSD, DOM, and DOI can block the neurotoxic effects of NMDA antagonists, possibly by activating inhibitory 5-HT2A receptors on GABAergic interneurons that normally inhibit glutamatergic projections to the retrosplenial and cingulate cortexes. The purpose of this experiment was to determine the extent to which similar drugs might also alter the behavioral effects of one NMDA antagonist, PCP. Rats were trained to discriminate this compound (2.5 mg/kg) from saline and were then given a series of antagonist tests. It was found that LSD (0.32 mg/kg) and DOM (4.0 mg/kg) blocked the PCP cue completely; DMT (8.0 mg/kg) and a structural congener of LSD, lisuride (LHM; 0.4 mg/kg), blocked the effects of PCP partially. The 5-HT/DA antagonists spiperone and ritanserin had no effect on the PCP cue. These data suggest that LSD, DOM, and, less effectively, DMT and LHM can block the behavioral as well as the neurotoxic effects of NMDA antagonists most likely through agonist actions at 5-HT2 receptors.
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PMID:Antagonism of a PCP drug discrimination by hallucinogens and related drugs. 1078 61

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