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

The non-competitive NMDA receptor antagonists, PCP (phencyclidine), MK801, and ketamine produce psychosis in humans and abnormal vacuoles in posterior cingulate and retrosplenial rat cortical neurons. We show that PCP (> or = 5 mg/kg), MK801 (> or = 0.1 mg/kg), and ketamine (> 20 mg/kg) induce hsp70 mRNA and HSP70 heat shock protein in these vacuolated, injured neurons, and PCP also induces hsp70 in injured neocortical, piriform, and amygdala neurons. The PCP, MK801, and ketamine drug induced injury occurs in 30 day and older rats, but not in 0-20 day old rats, and is prevented by prior administration of the antipsychotic drugs haloperidol and rimcazole. Since haloperidol and rimcazole block dopamine and sigma receptors, and since M1 muscarinic cholinergic receptor antagonists also prevent the injury produced by PCP, MK801, and ketamine, future studies will be needed to determine whether dopamine, sigma, M1, or other receptors mediate the injury.
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PMID:Haloperidol prevents induction of the hsp70 heat shock gene in neurons injured by phencyclidine (PCP), MK801, and ketamine. 148 94

Noncompetitive N-methyl-D-aspartate (NMDA) receptor antagonists, including ketamine, MK-801, and phencyclidine (PCP), induce the HSP70 heat shock or stress gene in pyramidal neurons in rat posterior cingulate and retrosplenial cortex. PCP also induces HSP70 in many other pyramidal neurons in brain including neocortex, insular cortex, piriform cortex, hippocampus, and basal nuclei of the amygdala. Several neurotransmitter antagonists, including haloperidol, clozapine, SCH-22390, diazepam, and muscimol, inhibited induction of HSP70 produced by PCP. Baclofen had no effect. Nifedipine blocked induction of HSP70 by PCP in cingulate, neocortex, and insular cortex but only partially blocked HSP70 in piriform cortex and amygdala. These data suggest that phencyclidine injures pyramidal neurons via dopamine D1, D2, D4, sigma, and other receptors. Gamma-aminobutyric acid (GABA) agonists ameliorate the injury. A model is proposed whereby NMDA receptor blockade on GABA neurons decreases inhibitory inputs onto cortical pyramidal neurons and makes them more vulnerable to injury from a variety of excitatory inputs. It is possible that psychosis produced by PCP and other NMDA antagonists correlates with overactivity and eventual injury to cingulate pyramidal neurons.
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PMID:Neuronal injury produced by NMDA antagonists can be detected using heat shock proteins and can be blocked with antipsychotics. 777 Jun 20

Phencyclidine (PCP), dizocilpine maleate (MK801), and other NMDA antagonists are toxic to neurons in the posterior cingulate and retrosplenial cortex. To determine if additional neurons are damaged, the distribution of microglial activation and 70 kDa heat shock protein (HSP70) induction was studied following the administration of PCP and MK801 to rats. PCP (10-50 mg/kg) induced microglial activation and neuronal HSP70 mRNA and protein expression in the posterior cingulate and retrosplenial cortex. In addition, coronal sections of the cerebellar vermis of PCP (50 mg/kg) treated rats contained vertical stripes of activated microglial in the molecular layer. In the sagittal plane, the microglial activation occurred in irregularly shaped patches, suggesting damage to Purkinje cells. In accord with this finding, PCP induced HSP70 protein and mRNA expression in Purkinje cells. Although there were relatively few foci of microglial activation and cells with HSP70 protein induction, HSP70 mRNA was detected in many Purkinje cells located throughout the cerebellar hemispheres as well as the vermis. MK801, at doses of 5-10 mg/kg, induced microglial activation and neuronal HSP70 mRNA and protein expression in the cingulate and retrosplenial cortex but not in the cerebellum. At the dose of 1 mg/kg MK801 induced HSP70 but did not consistently activate microglia. These data suggest that microglia are activated by MK801 doses that kill or severely damage neurons, whereas HSP70 is induced in "stressed" neurons at MK801 doses well below those that produce severe neurotoxicity. These observations suggest that PCP, but not MK801, is toxic to Purkinje cells and raise the question of whether NMDA antagonists or sigma ligands other than PCP are toxic to the cerebellum. Moreover, this study illustrates the usefulness of microglial activation and HSP70 induction as markers of neurotoxicity.
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PMID:Cerebellar toxicity of phencyclidine. 789 Nov 55

Noncompetitive N-methyl-D-aspartate (NMDA) receptor antagonists, inclu ding ketamine and phencyclidine (PCP), produce abnormal intracellular vacuoles in posterior cingulate and retrosplenial cortical neurons in the rat. Ketamine also induces 70-kDa heat shock protein (HSP70) expression in pyramidal neurons in the posterior cingulate and retrosplenial cortex and, as shown by this study, activates microglia in the retrosplenial cortex of the rat. Whereas HSP70 protein expression was induced with ketamine doses of 40 mg/kg (ip) and higher, doses of 80 mg/kg and higher were required to activate microglia. HSP70-positive neurons were observed in 30- to 90-day-old rats but not in younger, 10- to 20- day old animals following ketamine (80 mg/kg, ip). Pretreatment with the antipsychotic drug haloperidol at doses of 1.0 mg/kg and above abolished all HSP70 immunostaining produced by ketamine (80 mg/kg). However, a single dose of haloperidol (5 mg/kg, im) did not decrease the number of microglia activated in retrosplenial cortex by ketamine (80-140 mg/kg). Similarly, PCP (10 and 50 mg/kg, ip)-induced microglial activation in the posterior cingulate and retrosplenial cortex of adult rats was not blocked by haloperidol (10 mg/kg, im, 1 h prior to PCP). These results suggest that ketamine and PCP injure neurons in the posterior cingulate and retrosplenial cortex of adults rats. Though haloperidol may afford some protection against this injury since it inhibits induction of HSP70 expression, the failure to prevent microglial activation suggests that single doses of haloperidol do not completely protect neurons from NMDA antagonist toxicity.
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PMID:Haloperidol prevents ketamine- and phencyclidine-induced HSP70 protein expression but not microglial activation. 863 38

Non-competitive N-methyl-D-aspartate (NMDA) receptor antagonists, ketamine, phencyclidine (PCP) and dizocilpine (MK-801), produce psychosis in people. In rodents they produce cytoplasmic vacuoles in injured retrosplenial cortical neurons that express HSP70 heat shock protein. This study examined possible circuits and receptors that mediate this neuronal injury. Bilateral, but not unilateral, injection of dizocilpine (5, 10, 15, 20 microg/microL per side) into the anterior thalamus induced HSP70 protein in pyramidal neurons in deep layer III of rat retrosplenial cortex 24 h later. In contrast, bilateral dizocilpine injections (5, 10, 15, 20 microg/microL per side) into the retrosplenial cortex or into the diagonal band of Broca did not induce HSP70. Bilateral injections of muscimol (0.1, 1, 10 microg/microL per side), a GABAA (gamma-aminobutyric acid) agonist, into the anterior thalamus blocked HSP70 induction in the retrosplenial cortex produced by systemic dizocilpine (1 mg/kg). Bilateral thalamic injections of baclofen (0.1, 1, 10 microg/microL per side), a GABAB agonist, were ineffective. Anterograde tracer studies confirmed that neurons in the anterior thalamus project to superficial layer III of the retrosplenial cortex where the dendrites of HSP70-immunostained neurons in deep layer III reside. Bilateral blockade of NMDA receptors on GABA neurons in the reticular nuclei of the thalamus is proposed to decrease GABA neuronal firing, decrease GABA release and decrease activation of GABAA receptors. This activates thalamic projection neurons that damage retrosplenial cortical neurons presumably via unblocked cortical glutamate alpha-amino-3-hydroxy-5-methyl-isoxazole-4-propionate (AMPA) and kainate receptors. The increases of blood flow that occur in the thalamus and retrosplenial cortex of people that have psychosis produced by NMDA antagonists could be related to thalamic excitation of the retrosplenial cortex produced by these drugs.
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PMID:Bilateral blockade of NMDA receptors in anterior thalamus by dizocilpine (MK-801) injures pyramidal neurons in rat retrosplenial cortex. 1076 70