UMLS:C0036341 - FACTA Search

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Query: UMLS:C0036341 (schizophrenia)
60,220 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

sigma Receptors have been implicated in many pharmacological and physiological functions. sigma Receptors were purported to modulate behavioral alteration induced by cocaine and amphetamine, mediate effects of certain atypical antipsychotic agents, affect tonic potassium channels, the PCP/NMDA receptor complex, duodenal bicarbonate secretion, and CRF-induced colonic motility. sigma Receptors were reported to be altered in schizophrenia in certain studies, and up- and downregulations of sigma receptors have been observed in certain conditions. Neuropeptide Y has been shown to modulate the PCP/NMDA receptor complex in both central and gastrointestinal systems via sigma receptors. sigma Receptors are G-protein linked, and certain actions of sigma receptor ligands were affected by G-protein-modifying agents. Using photoaffinity labeling technique, a polypeptide of about 26 kDa has been identified as a sigma receptor. However, the exact biochemical relationship of this polypeptide to sigma receptors is unknown at present.
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PMID:Delineating biochemical and functional properties of sigma receptors: emerging concepts. 810 75

Phencyclidine (PCP), a psychotomimetic drug of abuse, produces mental changes and manifestations in humans which are reminiscent of schizophrenia, though the mechanism of these actions remains unknown. We report here a biphasic time course of PCP action on regional cerebral glucose metabolism extending over 48 h. A single dose of PCP (8.6 mg/kg) produces an initial increase in glucose metabolism (at 3 h) and a later decrease in glucose metabolism (at 24 h) without a return to baseline until 48 h. A single lower dose of PCP (0.86 mg/kg), a dose which is considered selective for action at the NMDA-PCP receptor, produces no early metabolic change (at 3 h), but replicates the regional hypometabolism albeit less intense at 24 h. The delayed cerebral hypometabolism does not appear to be related to PCP-induced intracellular vacuolization, seen in the retrosplenial cortex. These metabolic changes may be associated with the psychotomimetic effects of PCP and thus may be relevant to psychosis in humans.
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PMID:Delayed regional metabolic actions of phencyclidine. 822 27

The ability of phencyclidine (PCP) to model schizophreniform psychosis is believed to be related to its ability to produce both hypoglutamatergia and hyperdopaminergia. As such, identification of PCP-stimulated behaviors may be important for the development of animal models of schizophrenia. In this study, MK-801 [(+)-5-methyl-10,11-dihydro-5H- dibenzo[a,d]cycloheptane-5,10-imine maleate], a high-affinity PCP analogue, was administered to mice in order to stimulate "PCP behaviors." These PCP behaviors were compared with behaviors stimulated by apomorphine, a dopamine agonist. Stereotyped behavior was assessed by both visual observations and automated measurements. Visual observations showed highly intense gnawing and sniffing in apomorphine-treated mice and the absence of gnawing in MK-801-treated mice. Automated stereotypic measures showed that, compared with vehicle-treated controls, there were frequent dissociations between MK-801 and apomorphine. Conceivably, a compound that attenuates PCP-stimulated behaviors while sparing apomorphine-stimulated behaviors would possess both antipsychotic efficacy and be devoid of undesirable side effects associated with dopamine blockade.
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PMID:Differentiation between MK-801- and apomorphine-induced stereotyped behaviors in mice. 850 39

1. Immobility induced by forced swimming is well known as an animal model of depression. To develop an animal model for the negative symptoms of schizophrenia, in particular the depressive symptoms, the effect of phencyclidine (PCP) on immobility in the forced swimming test was investigated in mice, since PCP produces such negative symptoms in humans. 2. Repeated treatment with PCP (10 mg kg-1 day-1, s.c., once a day for 14 days) prolonged the immobility time in the forced swimming test 24 h after the final injection compared with saline treatment; the effect was not obtained by single or 5 treatments with PCP (10 mg kg-1, s.c.), or by repeated treatment with methamphetamine (0.5 and 1 mg kg-1 day-1, s.c., once a day for 14 days). 3. The enhancing effect of PCP (10 mg kg-1 day-1, s.c.) on the immobility persisted for at least 21 days after the withdrawal of the drug. 4. Haloperidol (0.3 and 1 mg kg-1, p.o.), ritanserin (3 and 10 mg kg-1, p.o.), risperidone (0.1-1 mg kg-1, p.o.), and clozapine (3 and 10 mg kg-1, p.o.) failed to attenuate the immobility induced by the forced swimming in mice repeatedly treated with saline when the drugs were administered 1 h before the forced swimming test. However, ritanserin (30 mg kg-1) and clozapine (30 mg kg-1) did attenuate this immobility. 5. The enhancing effect of PCP on the immobility was attenuated by ritanserin (3 and 10 mg kg-1, p.o.), risperidone (0.3 mg kg-1, p.o.), and clozapine (3 and 10 mg kg-1, p.o.), whereas haloperidol (0.3 and 1 mg kg-1, p.o.) had no effect. 6. These results suggest that the enhancement of immobility in the forced swimming test brought about by repeated PCP treatment could be used as a model of the negative symptoms, particularly the depression, of schizophrenia. This effect of PCP appeared to be mediated, at least in part, via 5-HT2A receptors.
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PMID:Enhancement of immobility in a forced swimming test by subacute or repeated treatment with phencyclidine: a new model of schizophrenia. 858 Dec 95

Phencyclidine (PCP) induces a psychotomimetic state that closely resembles schizophrenia, and PCP-treated animals can serve as a model for schizophrenia. The effects of PCP on the gene expression of NVP-1, a novel Ca(2+)-binding protein, were studied in rats. After 24 hours, the NVP-1 mRNA level in the nucleus accumbens showed a significant decrease of 42%. This result suggests that alterations in Ca(2+)-binding protein may be involved in the pathology of PCP-induced psychosis and, presumably, schizophrenia.
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PMID:Delayed changes in neural visinin-like calcium-binding protein gene expression caused by acute phencyclidine administration. 874 71

We examined the abilities of 7-nitroindazole and methylene blue, inhibitors of the neuronal isoform of nitric oxide synthase (NOS) and nitric oxide-stimulated guanylate cyclase activity respectively, to attenuate explosive episodic jumping behavior(s) ("popping") elicited by MK-801 in mice. MK-801, like phencyclidine (PCP), is a high-affinity, noncompetitive antagonist of the N-methyl-D-aspartate (NMDA) subtype of glutamate receptor. We have postulated that MK-801-elicited popping behavior in mice represents an animal model of schizophrenia, because popping behavior is markedly inhibited/antagonized by both typical and atypical antipsychotic drugs. In the present study, popping behavior induced by MK-801 was measured using an automated detection system that quantifies vertical displacements on the testing platform. 7-Nitroindazole (100 mg/kg) and methylene blue (32 and 100 mg/kg) significantly reduced the number and force of MK-801-elicited popping behavior. Mouse rotorod performance did not differ between animals receiving 7-nitroindazole, methylene blue, or their respective vehicles, suggesting that attenuation of MK-801-elicited popping behavior was not due to either sedation or ataxia caused by 7-nitroindazole or methylene blue. Our findings suggest that nitric oxide may, in part, mediate behaviors induced by NMDA receptor antagonists, like MK-801, and that inhibitors of NOS may have antipsychotic actions.
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PMID:7-Nitroindazole and methylene blue, inhibitors of neuronal nitric oxide synthase and NO-stimulated guanylate cyclase, block MK-801-elicited behaviors in mice. 879 90

The N-methyl-D-aspartate receptor antagonist phencyclidine (PCP) is a psychotomimetic drug which produces schizophrenia-like psychosis. In animal studies it is toxic to neurons in the posterior cingulate and retrosplenial cortex and to cerebellar Purkinje cells. To find clues about the mechanism and pathways of PCP action, we studied the effect of systemic PCP administration (10 and 50 mg/kg, intraperitoneal) on the expression of immediate-early genes (IEGs) (c-fos, c-jun, egr-2, egr-3, NGFI-A, NGFI-B, NGFI-C, and Nurr1) using in situ hybridization histochemistry. PCP, 50 mg/kg, produced a biphasic IEG induction: an early induction in the hippocampus, cerebral cortex, and cerebellar granule cell layer, and a delayed induction in the posterior cingulate cortex and cerebellar Purkinje cell layer. The early induction of all eight IEGs was observed 30 min after drug treatment in the cerebral cortex and in the hippocampus. c-fos, NGFI-A, and NGFI-B were also induced in thalamic nuclei, and c-fos was also induced in the cerebellar granule cell layer. In contrast, a delayed induction of c-fos, c-jun, NGFI-A, NGFI-B, NGFI-C, and Nurr1 in the posterior cingulate cortex was observed 2-6 hr after PCP, 50 mg/kg. egr-2 and egr-3 were not induced in the posterior cingulate cortex. c-fos induction in the cerebellar Purkinje cell layer peaked 2 hr after PCP, 50 mg/kg. In addition, PCP induced c-fos, egr-3, NGFI-A, NGFI-B, NGFI-C, and Nurr1 in the inferior olivary nucleus. PCP-induced IEG expression returned to baseline by 24 hr. A lower PCP dose, 10 mg/kg, induced lower levels of IEG expression, with similar anatomical and biphasic temporal pattern as with the higher PCP dose of 50 mg/kg. However, no IEG induction was observed in the hippocampus following 10 mg/kg PCP. These results demonstrate that PCP produces neural activation not only in the cingulate and retrosplenial cortex, but also in many other regions of forebrain and cerebellum. Moreover, prolonged IEG expression in the posterior cingulate cortex and cerebellar Purkinje cells, the sites of PCP toxicity, suggests that IEGs could mediate neurotoxic/neuroprotective effects in these brain regions.
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PMID:Effects of phencyclidine on immediate early gene expression in the brain. 881 9

Prepulse inhibition (PPI) of the startle reflex provides an operational measure of sensorimotor gating. Deficits in PPI are observed in schizophrenia patients and can be modelled in animals by administration of noncompetitive NMDA antagonists such as phencyclidine (PCP) or dizocilpine (MK-801). Previous studies indicate that the atypical antipsychotic clozapine restores PPI in PCP-treated animals while the typical antipsychotic haloperidol does not. Olanzapine (LY170053) is a novel putative atypical antipsychotic that shares many pharmacological and behavioral properties with clozapine. The present study assessed the ability of olanzapine (0, 1.25, 2.5, 5.0 or 10.0 mg/kg) to antagonize deficits in PPI produced by PCP (1.5 mg/kg) and dizocilpine (0.1 mg/kg). At the two highest doses, olanzapine significantly increased PPI in PCP- and dizocilpine-treated animals without affecting PPI or baseline startle reactivity by itself. These results support the notion that olanzapine is functionally similar to clozapine and may have utility as an atypical antipsychotic agent.
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PMID:Antagonism of phencyclidine-induced deficits in prepulse inhibition by the putative atypical antipsychotic olanzapine. 884 37

Phencyclidine (PCP) produces a psychotic reaction in humans which closely resembles an acute episode of schizophrenia and has therefore been given an increasing amount of attention as a model for schizophrenia. The present article reviews the behavioral and neurochemical effects of PCP in both humans and animals. Where possible, comparisons are made between the effects of PCP and amphetamine. The merits of the dopamine versus NMDA/PCP receptor mediated expression of PCP-induced psychosis are discussed, as well as the importance of selecting behavioral models which are best suited to model the expression of psychosis, rather than the motor effects of psychotomimetics.
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PMID:The behavioral and neurochemical effects of phencyclidine in humans and animals: some implications for modeling psychosis. 885 14

Glutamate-containing neuronal terminals are ubiquitous in the central nervous system and their functional importance in mental activity is considerable. Therefore, the involvement of this neurotransmitter in the pathology of schizophrenia is being studied. Biochemical evidence has suggested that glutamatergic transmission may be regionally reduced in schizophrenia, although this evidence has never been completely consistent nor fully replicable. More striking has been the behavioral effects in humans of the antiglutamatergic drugs phencyclidine (PCP) and its congener ketamine. By historical report, PCP produces a 'schizophrenia-like' psychosis in normal humans and aggravates the psychosis in schizophrenics. More recently, ketamine has been shown to produce a mild psychotomimetic effect in normal volunteers, which has some schizophrenia-like features. We have studied the effects of ketamine in schizophrenic patients. Here, ketamine intensified each patient's specific underlying psychosis, an effect not blocked by haloperidol. Moreover, ketamine selectively increased cerebral blood flow (CBF) in the anterior cingulate cortex and reduced CBF in hippocampus and lingual gyrus. These data may be pertinent to the subject's psychosis exacerbation, especially because both cingulate and hippocampus have been previously implicated in schizophrenic psychosis. In addition, ketamine produced a distinctive dynamic time-course of regional CBF changes in different anatomic regions, with immediate (5-10 min) changes in cingulate, but somewhat more delayed changes (20-40 min) in the thalamus and cerebellum. Our immediate early gene (IEG) time-course data with c-fos and zif268 in rats following PCP suggest that a single dose of this antiglutamatergic compound can have an effect in some brain areas which lasts beyond 48 h, an effect which is distinct by IEG and by region. Together, these data suggest that glutamate-mediated neurotransmission has a strong influence in schizophrenia, although the specifics of this involvement have yet to be articulated.
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PMID:Glutamate pharmacology and the treatment of schizophrenia: current status and future directions. 886 63

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