CAS:77-10-1 - FACTA Search

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Query: CAS:77-10-1 (Phencyclidine)
442 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Phencyclidine (PCP) is a popular illicit drug often misrepresented as some other hallucinogenic substance and distributed in widely varying dosage forms and strengths. Users of hallucinogenic drugs may present with unintentional PCP overdoses. Toxicological laboratory analyses are essential to establish the diagnosis. In nine admitted overdose patients, the consciousness level ranged from alert to comatose on presentation, and all showed a prolonged recovery phase with agitation and toxic psychosis. Severe behavior disorder, paranoid ideation, and amnesia for the entire period of in-hospital stay are characteristic. In very high dose patients, shallow respiratory excursions and periods of apnoea and cyanosis coincided with generalized extensor spasm and spasm of neck muscles. Excessive bronchial secretions, gross ataxia, opisthotonic posturing, and grimacing occur. PCP toxic psychosis should be considered in drug-abusing patients presenting with schizophrenic-like symptoms, psychosis, or other bizarre behavior, whether or not they admit to taking PCP.
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PMID:Phencyclidine ingestion: drug abuse and psychosis. 728 52

Phencyclidine (PCP), in a dose of 15 mg/kg, produced delayed cognitive dysfunction (at 24 h) in rats subjected to water maze tasks. At 24 h after PCP administration, ataxia, hyperlocomotion and stereotyped behavior were not induced. NE-100, N,N-dipropyl-2-[4-methoxy-3-(2-phenylethoxy)phenyl]-enthylamine monohydrochloride, a selective and potent sigma receptor ligand, was administered orally 10 min after PCP administration or 15 min before the first trial (24 h after PCP administration). In both cases, NE-100 dose-dependently attenuated the delayed cognitive dysfunction induced by PCP. As these findings show that ingestion of PCP led to delayed cognitive dysfunction similar to the cognitive signs of psychosis seen in humans, NE-100 is being further studied for possible treatment of subjects with schizophrenia.
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PMID:Effect of NE-100, a novel sigma receptor ligand, on phencyclidine- induced delayed cognitive dysfunction in rats. 760 28

Phencyclidine (PCP) and ketamine can induce a model psychosis in drug addicts and exacerbate the symptoms of chronic schizophrenics. The model psychoses these drugs induce mimic a variety of schizophrenic symptoms, including flattened affect, dissociative thought disorder, depersonalization and catatonic states. These symptoms can persist for prolonged periods and chronic PCP and ketamine addicts have persisting memory deficits. Dizocilpine (MK-801) is a simpler drug than PCP or ketamine in its actions, but it shares with both the property of blocking in a non-competitive manner the N-methyl-D-aspartate (NMDA) ion-channel. Behavioral observations and drug-discrimination studies in animals indicate that PCP and dizocilpine are similar in their effects and they both have a neurotoxic effect on neurons in posterior cingulate cortex. Recent studies have indicated that both of these drugs, when given continuously for several days, further induce neuronal degeneration in other limbic structures. These include brain regions of rats related to olfaction, associated limbic structures such as piriform cortex and posterior regions of entorhinal cortex and in it's projections, through the perforant pathway, to dentate gyrus and other cells in ventral hippocampus. These degenerative consequences may be excitatory neurotoxic effects, for these compounds also induce an elevation in glucose metabolism maximal in just those structures where degeneration is observed and the degeneration involves entire cells, with all of their processes. It has been suggested these non-competitive NMDA antagonists induce an increase in firing rate in a limbic circuit which includes the perforant pathway. At least some competitive NMDA antagonists induce the same pattern of degeneration and altered glucose utilization. There is anatomical and functional evidence that alterations in these same limbic structures are present in the dementia syndrome manifested by some schizophrenics and most Alzheimer's patients. This suggests that these non-competitive NMDA antagonists may provide a more complete model of psychoses and memory disturbances than previously recognized, in that they can mimic both persisting symptomatology and neuroanatomical abnormalities. While the neurochemical underpinnings of this effect remain elusive, it appears to be both age and sex dependent. Further studies of the mechanisms by which NMDA antagonists induce increased glucose utilization and neurotoxicity in these limbic structures may clarify these alterations in this simplified Papez-like circuit.
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PMID:The N-methyl-D-aspartate antagonists phencyclidine, ketamine and dizocilpine as both behavioral and anatomical models of the dementias. 779 58

Phencyclidine (PCP; angel dust) is a drug of abuse known to produce a behavioral state in humans resembling schizophrenia/psychosis. PCP is a noncompetitive NMDA receptor antagonist and produces a variety of behaviors in rats including circling. The behavioral effects of other noncompetitive NMDA receptor antagonists such as (+)-MK-801 are still being elucidated. Here, adult female rats were dosed with PCP (10 mg/kg, IP), or (+)-MK-801 (0.1 mg/kg, IP) and circling preference was recorded for 2 h before sacrifice to determine monoamine levels by HPLC/EC. Animals injected with PCP or (+)-MK-801 showed a preference to turn to the left (65% and 72%, respectively). PCP and (+)-MK-801 also produced a significant increase of 3,4-dihydroxyphenylacetic acid (DOPAC) and homovanillic acid (HVA) in whole striatum on both sides of the brain. Further dissection of the striatum into medioventral and dorsolateral regions revealed that HVA was increased bilaterally except in globus pallidus where we found significant increases in dopamine (DA), DOPAC, and HVA only on the left side after PCP and (+)-MK-801 administration. These data suggest that PCP and (+)-MK-801 produce a greater preference to turn left than right, a finding similar to that found in human psychosis. Furthermore, it is possible that this preference to turn toward the left hemispace is due to an asymmetry in dopamine function found in the globus pallidus after administration of PCP and similar drugs.
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PMID:Phencyclidine and (+)-MK-801-induced circling preference: correlation with monoamine levels in striatum of the rat brain. 796 37

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

A man 27 years with a breath alcohol concentration of 0.7 g/kg had delusional ideas and other signs that indicate a psychotic intoxication. By the end it was a psychotic episode however concerning a patient with a polytoxicomania--the drugs were alcohol, cocaine, and Phencyclidine. There are no indications for the primary manifestation of a psychosis.
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PMID:[Psychotic intoxication and a psychotic episode]. 848 Dec 19

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

Phencyclidine (PCP) is a psychotomimetic drug associated with acute and delayed mental effects in normal humans and psychosis exacerbation in already psychotic schizophrenic individuals. We have previously described a dose-sensitive, delayed action of PCP on regional cerebral metabolism in the rat which occurs over 48 hours and a late (24 hour) change in N-methyl-d-aspartate (NMDA) and kainate binding in hippocampal areas. Now, we report the complex time course of PCP action on NMDA-sensitive glutamate receptor binding in rat in distinct subregions of the hippocampus extending over 48 hours. Selectively, in the hippocampal CA1 region, a single dose of PCP (8.6 mg/kg) produced an increase in receptor binding at 12 hours (+24%), sustained to 24 hours (+29%) compared with the 3 hour post-PCP value (-15%) and then a return to control levels of receptor binding at 48 hours. Other regions of hippocampus showed distinctive time-dependent changes in NMDA-sensitive glutamate receptor binding as well. In addition, PCP produced a change in kainate receptor binding in the dentate gyrus across the 48-hour time period. In other representative brain regions, PCP did not alter NMDA or kainate binding over the same time course. This extended neurochemical effect of PCP on glutamate receptors in rat hippocampus parallels, in time, certain delayed psychological actions of PCP in humans and thus may be relevant to psychosis, especially to PCP-induced psychosis.
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PMID:Phencyclidine produces changes in NMDA and kainate receptor binding in rat hippocampus over a 48-hour time course. 885 12

Phencyclidine (PCP) can induce a model psychosis which has a number of similarities to dementias and schizophrenia. In some cases the psychosis persists for prolonged periods after drug discontinuation. N-Methyl-D-aspartate (NMDA) antagonists such as PCP induce increases in glucose metabolism in a variety of brain structures but most notably in limbic regions such as retrosplenial, piriform, and entorhinal cortex, hippocampus, and olfactory tubercle. When given continuously for several days, these NMDA antagonists induced neural degeneration in these same critical limbic areas. In the present study regional 2-fluorodeoxyglucose (FDG) uptake was measured in rats at both 24 h and 10 days after neurotoxic, 5-day "binge" PCP administration. At 24 h after minipump removal there were persisting and large increases in glucose uptake in many brain regions, with maximal changes in the same limbic structures in which neurotoxicity has been observed. Surprisingly, many of these regions still showed elevated glucose metabolism after 10 days of recovery. These findings suggest an anatomical and neurochemical substrate for the persisting psychosis which can occur following PCP.
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PMID:Persisting changes in brain glucose uptake following neurotoxic doses of phencyclidine which mirror the acute effects of the drug. 887 27

Phencyclidine (PCP) and amphetamine (AMP) can induce psychotic syndromes in humans, whereas administration of these drugs to mice results in behavioral activation that is influenced by genetic factors. Quantitative trait loci (QTL) underlying genetic differences in response to PCP and AMP in mice were provisionally identified by correlating allelic variation at known marker loci in the BXD series of recombinant inbred (RI) mice and its progenitors (C57BL/6J and DBA/2J inbred strains) with the locomotor response of each strain to PCP and AMP. Total distance traveled for individual mice from each of the 26 BXD RI and two progenitor strains was measured after injections of normal saline and 7.5 mg/kg i.p. injection of PCP. This procedure was repeated after 1 week, using 5.0 mg/kg of AMP, instead of PCP. Markers significantly (p < .01) correlated with response to PCP map to murine chromosomes 1, 14, and 15. Response to amphetamine was correlated with markers mapping to chromosomes 4, 5, 6, 8, 14, and 18. Identification of the QTL underlying PCP-induced and AMP-induced behavior in mice may provide clues into the complicated genetics of psychosis in humans.
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PMID:Quantitative trait loci contributing to phencyclidine-induced and amphetamine-induced locomotor behavior in inbred mice. 891 21

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