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 peripheral administration of the psychotomimetic drug phencyclidine (1-(phenylcyclohexyl) piperidine hydrochloride) (PCP) induces a dose-related ipsilateral rotation in unilateral substantia nigra electrolytically-lesioned rats. The intensity of this rotation can be modulated by administration of various dopaminergic and cholinergic agents. Injection of alpha-methylparatyrosine methylester (125 mg/kg) or haloperidol (1 mg/kg) inhibited the ipsilateral circling behavior. Pimozide (1 mg/kg) also inhibitied the rotation, but to a lesser extent. The injection of the anticholinergic agent trihexyphenidyl (5 mg/kg) potentiated, and the cholinomimetic drug arecoline (5 mg/kg), depressed the rotation induced by PCP (7.5 mg/kg), It is probable that PCP possesses significant dopaminergic and anticholinergic properties. The capacity of PCP to induce rotation in this model may be related to its effects on dopaminergic and cholingergic neurons in the rat striatum. Thus, PCP may induce rotational behavior by potentiating dopaminergic transmission, by blocking cholinergic activity, or both; both of these effects have been demonstrated to be important in the generation of circling behavior in rats with nigrostriatal lesions.
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PMID:Phencyclidine-induced rotational behavior in rats with nigrostriatal lesions and its modulation by dopaminergic and cholinergic agents. 1 84

The abuse of phencyclidine [1(1-phencylohexyl)piperidine, PCP], commonly referred to as angel dust or hog, is rapidly reaching epidemic proportions. PCP users often appear violent and increases in PCP-implicated homicides and suicides have been reported. In animal studies PCP has been demonstrated in brain up to 48 h after administration, long after blood levels become undetectable. However, there is little further information on the distribution of PCP within the central nervous system with regard to the possible sites of action. Recently, Sokoloff and associates described a new technique which can be used to visualise possible sites of drug action. The technique is based on the premise that neuronal activity is closely related to energy metabolism. Therefore, by directly monitoring 2-deoxy-D-glucose consumption before and after a pharmacological stimulus, we can obtain autoradiographic evidence of changes in neuronal activity in discrete areas brain as a response to that stimulus. Using this procedure, we now report that PCP causes dramatic changes in glucose metabolism in very specific regions of the rat brain.
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PMID:Localisation of phencyclidine-induced changes in brain energy metabolism. 55 Dec 94

Our previous studies have demonstrated that, using membranes of guinea pig brain, [3H]1-[1-(2-thienyl)cyclohexyl]piperidine ([3H]TCP) labels not only the phencyclidine binding site associated with the NMDA receptor (PCP site 1), but also a second high affinity binding site which is associated with the biogenic amine reuptake carrier (termed PCP site 2). To test this hypothesis, the binding of [3H]GBR12935 to the dopamine transporter, and [3H]TCP binding to PCP sites 1 and 2 were measured in caudates harvested from control, MPTP-treated and reserpine-treated dogs. MPTP treatment decreased dopamine levels by over 99%, decreased [3H]GBR12935 binding by over 90%, decreased [3H]TCP binding to PCP site 2 by about 50%, and had no significant effect on [3H]TCP binding to PCP site 1. These data are consistent with the hypothesis that a portion of PCP site 2 is associated with dopaminergic nerve terminals in dog caudate.
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PMID:MPTP lesions of the nigrostriatal dopaminergic projection decrease [3H]1-[1-(2-thienyl)cyclohexyl]piperidine binding to PCP site 2: further evidence that PCP site 2 is associated with the biogenic amine reuptake complex. 132 Feb 14

The ion channel probe phencyclidine [1-(1-phenylcyclohexyl)piperidine; PCP] selectively inhibited aggregation, secretion and ultrastructural changes in platelets induced by adrenaline, but did not affect activation induced by other common platelet agonists such as alpha-thrombin, ADP, collagen or ionophore A23187. [3H]PCP bound to platelets with high affinity (Kd 134 +/- 33 nM; 3600 +/- 1020 sites/platelet), as did the thienyl analogue [3H]TCP (1-[1-(2-thienyl)cyclohexyl]piperidine). PCP binding to platelets was increased 3-4-fold in N-methylglucamine buffer in the absence of Na+ ions. Binding was unaffected by haloperidol and was only weakly inhibited (EC50 10-20 microM), without significant stereoselectivity by the two sets of stereoselective ligands, dexoxadrol/levoxadrol and (+)MK801/(-)MK801. Binding of PCP was not competed for by adrenaline or yohimbine. Only the high-affinity binding of [3H]PCP to platelets was blocked by prior treatment of the platelets with the covalent affinity probe Metaphit, and these platelets no longer aggregated in response to adrenaline although they responded normally to alpha-thrombin, ADP and collagen. These results suggest that platelets contain high-affinity receptors for PCP that can modulate adrenaline-induced platelet activation.
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PMID:Phencyclidine binds to blood platelets with high affinity and specifically inhibits their activation by adrenaline. 132 25

High-affinity binding sites (apparent KD 2.87 nM) for [3H]desmethylimipramine ([3H]DMI), have been demonstrated and characterized in membrane preparations of bovine adrenal medulla. The binding of [3H]DMI improved upon pretreatment of the membrane with KCl and was saturable, sodium dependent, and potently inhibited by nisoxetine and imipramine. [3H]DMI binding was also inhibited by various phencyclidine (PCP)- and (or) sigma-receptor ligands, with the following order of potency: haloperidol > rimcazole > (-)-butaclamol > dextromethorphan > MK-801 > (+)-3-(3-hydroxyphenyl)-N-(1-propyl)piperidine ((+)-3-PPP) > PCP > N-(2-thienyl)cyclohexyl-3,4-piperidine (TCP) > (+)-SKF-10047 > (-)-SKF-10047. The inhibition produced by sigma ligands was not attributed to stimulation of either sigma 1- or sigma 2-receptors, owing to inactivity of the selective sigma-receptor ligands (+)-pentazocine and 1,3-di(2-tolyl)guanidine (DTG). The inhibition of [3H]DMI binding by sigma- and PCP-receptor ligands was not attributed to PCP1- or PCP2-receptor stimulation, owing to the decreased potency (100-fold) of these ligands in [3H]DMI assays compared with the affinity for brain PCP1 sites, and the ineffectiveness of the PCP2-ligand N-(1-(2-benzo(b)thiophenyl)cyclohexyl)piperidine (BTCP). Scatchard analysis of the inhibition by the sigma-ligands haloperidol and (+)-3-PPP, as well as the PCP1 receptor ligand MK-801, demonstrated noncompetitive interaction with the site bound by [3H]DMI. These studies indicate that bovine adrenomedullary membranes possess a specific receptor for the noradrenaline uptake inhibitor [3H]DMI, which is sensitive to allosteric modulation produced by PCP and sigma-ligands.
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PMID:Characterization of [3H]desmethylimipramine binding in bovine adrenal medulla: interactions with sigma- and (or) phencyclidine-receptor ligands. 133 74

A series of dioxolane analogues based on dexoxadrol ((4S,6S)-2,2-diphenyl-4-(2-piperidyl)-1,3-dioxolane) and etoxadrol ((2S,4S,6S)-2-ethyl-2-phenyl-4-(2-piperidyl)-1,3-dioxolane) were prepared and tested for their ability to displace [3H]TCP (1-[1-(2-thienyl)cyclohexyl]piperidine) from PCP (1-(1-phenylcyclohexyl)piperidine) binding sites in rat brain tissue homogenates. Qualitative structure-activity relationships within this series were explored through modifications of the three major structural units of dexoxadrol, the piperidine, 1,3-dioxolane, and aromatic rings of the molecule. N-Alkyl derivatives of dexoxadrol were found to be inactive, as were those analogues where the dioxolane ring was modified. Phenyl-substituted etoxadrol analogues were compared to similarly substituted PCP analogues and distinct differences were found in their structure-activity relationships suggesting that the aromatic rings in these two drug classes interact differently with the PCP binding sites. The replacement of the phenyl ring in etoxadrol by either a 2- or 3-thienyl ring led to compounds with affinity comparable to etoxadrol, and the replacement of the ethyl moiety on etoxadrol's dioxolane ring with propyl (7) or isopropyl (8) led to compounds which were more potent than etoxadrol or PCP. The most potent compound was (2S,4S,6S)-2-ethyl- 2-(1-chlorophenyl)-4-(2-piperidyl)-1,3-dioxolane (11), where a chlorine moiety was placed in the ortho position in the aromatic ring of etoxadrol. Its potency was comparable with TCP in vitro.
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PMID:Analogues of the dioxolanes dexoxadrol and etoxadrol as potential phencyclidine-like agents. Synthesis and structure-activity relationships. 134 51

Phencyclidine (PCP), a drug inducing schizophrenia-like symptoms in humans, is reported to be a non-competitive antagonist at the N-methyl-D-aspartate (NMDA) subtype of excitatory amino acid receptors. In rats, PCP produces three dose-dependent stages of EEG patterns: 1) increase of cortical desynchronization duration; 2) increase of the amplitude of the high-frequency (20-30 Hz) low-voltage (30-50 microV) cortical background activity; 3) appearance of cortical slow (2-3 Hz) wave-sharp wave complexes. These EEG changes are accompanied by stimulatory-depressive effects such as stereotypy (circling, head weaving) and ataxia. In the present study, the EEG and behavioural effects induced by systemic administration of the NMDA antagonists dizocilpine (MK 801), dextromethorphan (DM), [(+)-alpha-(4-chlorophenyl)-4- [(phenyl)methyl-1-piperidine ethanol] (SL 82.0715), (+)3-(2-carboxypiperazin-4-yl)-propyl-1-phosphonic acid (CPP), cis-4-phosphonomethyl-2-piperidine-carboxylic acid (CGS 19755) have been compared to those of PCP in rats. The rank of potency for inducing PCP-like EEG stages 1-3 was as follows: MK 801 > PCP > CGS 19755 > CPP. These drugs also induced PCP-like behavioural effects. On the contrary, DM and SL 82.0715, administered up to the dose of 100 mg/kg IP, failed to induce PCP-like behavioural effects and elicited only the stage 1 of PCP-like EEG. These results strongly suggest the involvement of NMDA neurotransmission in the behavioral and EEG effects of PCP.
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PMID:Different capability of N-methyl-D-aspartate antagonists to elicit EEG and behavioural phencyclidine-like effects in rats. 136 27

The binding properties of the 125I-labeled phencyclidine derivative N-[1-(3-[125I]iodophenyl)cyclohexyl]piperidine (3-[125I]iodo-PCP), a new ligand of the N-methyl-D-aspartate (NMDA)-gated ionic channel, were investigated. Association and dissociation kinetic curves of 3-[125I]iodo-PCP with rat brain homogenates were well described by two components. About 32% of the binding was of fast association and fast dissociation, and the remaining binding was of slow association and slow dissociation. Saturation curves of 3-[125I]iodo-PCP also were well described using two binding sites: one of a high affinity (KDH = 15.8 +/- 2.3 nM) and the other of a low affinity (KDL = 250 +/- 40 nM). 3-Iodo-PCP inhibited the binding of 3-[125I]iodo-PCP with inhibition curves that were well fitted by a two-site model. The binding constants (KiH, BmaxH; KiL, BmaxL) so obtained were close to those obtained in saturation experiments. Ligands of NMDA-gated ionic channels also inhibited the binding of 3-[125I]iodo-PCP with two constants, KiH and KiL. There was a very good correlation (r = 0.987) between the affinities of these ligands to bind to NMDA-gated ionic channels and their potencies to inhibit the binding of 3-[125I]iodo-PCP with a high affinity. Moreover, the regional distribution of the high-affinity binding of 3-[125I]-iodo-PCP paralleled that of tritiated N-[1-(2-thienyl)cyclohexyl]piperidine ([3H]TCP). In contrast to that of [3H] TCP, the binding of 3-[125I]iodo-PCP to well-washed rat brain membranes was fast and insensitive to glutamate and glycine.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Binding properties of 3-[125I]iodophencyclidine, a new radioligand for N-methyl-D-aspartate-gated ionic channels. 137 88

The binding of phencyclidine (PCP) within the channel gated by the NMDA-receptor complex can be positively or negatively modulated by compounds which facilitate or prevent the interaction of glutamate to the NMDA recognition site. In the present study extracellular recordings were used to evaluate the possibility that the negative modulation of NMDA channel function by the competitive NMDA antagonists (+/-)-CPP (3-((+/-)2-carboxypiperazin-4- yl)propyl-1-phosphonate) and CGS 19755 (cis-4-phosphonomethyl-2-piperidine carboxylate) could affect the response of A10 dopamine neurons to PCP. Pretreatment with 40 mg/kg of (+/-)-CPP or CGS 19755 completely blocked the low-dose excitatory effects of PCP, whereas 10 mg/kg of CGS 19755 produced only a partial blockade. However, neither CGS 19755 or (+/-)-CPP affected the amount of attenuation of A10 firing occurring with large doses of PCP. (+/-)-CPP and CGS 19755 pretreatment also failed to alter the morphine-induced stimulation of dopamine activity. These findings not only provide further evidence that the low-dose PCP-induced activation of A10 neurons is mediated through the NMDA-ion channel complex, but suggest that some physiological or behavioral effects evoked by PCP might be prevented by treatment with competitive NMDA receptor blockers.
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PMID:Competitive NMDA receptor antagonists attenuate phencyclidine-induced excitations of A10 dopamine neurons. 139 21

The effects of chronic administration of phencyclidine (PCP) or CGS 19755 (cis-4-phosphonomethyl-2-piperidine-carboxylic acid) on the cataleptic effects of N-methyl-D-aspartate (NMDA) receptor antagonists were studied in pigeons. PCP, a channel blocker of the NMDA receptor complex, or CGS 19755, a competitive NMDA antagonist, was administered i.m. to separate groups of pigeons each day. Tolerance developed to the cataleptic effects in both PCP- and CGS 19755-treated pigeons. PCP tolerance was characterized initially by 5-fold rightward shift and, with an increased chronic PCP dose, a complete downward shift of the PCP dose-effect curve. CGS 19755 tolerance was indicated by a 10-fold rightward shift of its dose-cataleptic effect curve. Cross-tolerance was obtained from PCP to other PCP-like compounds including dizocilpine (MK 801), ketamine, dextrorphan, 1-(2-thienyl)-cyclohexyl-piperidine and [(+)-SKF 10047] [(+)-N-allyl-normetazocine] as well as to the competitive NMDA antagonist, CGS 19755. Cross-tolerance also developed from CGS 19755 to another competitive NMDA antagonist, CGP 40116 [D-(E)-2-amino-4-methyl-5-phosphono-3-pentenoic acid] as well as to PCP-like compounds. The pharmacological selectivity of tolerance was evident because there was equal sensitivity to etomidate or pentobarbital in tolerant and nontolerant pigeons. The symmetric cross-tolerance between PCP-like compounds and competitive NMDA antagonists suggests the cataleptic effects of the two classes of NMDA antagonists are probably mediated via a similar mechanism of inhibition of neurotransmission at the NMDA excitatory synapse.
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PMID:Tolerance to the cataleptic effect of the N-methyl-D-aspartate (NMDA) receptor antagonists in pigeons: cross-tolerance between PCP-like compounds and competitive NMDA antagonists. 143 86


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