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)

Phencyclidine (1-(1-phenylcyclohexyl)piperidine, PCP) self-administration has been demonstrated in rhesus monkeys, baboons, dogs and rats. Generally, an orderly inverted U-shaped dose-response curve for rates of self-injection has been observed. Total drug intake appears to increase slightly with increases in unit dose; however, this increase is much less than might be expected with other CNS depressants such as barbiturates or morphine. Additionally, several arylcyclohexylamine analogues of PCP and some members of the benzomorphan and dioxolane classes referred to collectively as "phencyclinoids" are self-administered by primates and dogs. New data are presented in this review profiling the self-administration of some of these drugs in rats, as well as a characterization of the self-administration of higher unit doses of PCP than previously reported. Also, preliminary results of the assessment of the reinforcing efficacy of some PCP analogues measured by the progressive ratio procedure are presented.
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PMID:Animal models of intravenous phencyclinoid self-administration. 362 55

The action of phencyclidine [1-(1-phenylcyclohexyl)piperidine; PCP] and its behaviorally active analog (m-amino-PCP) and of two behaviorally inactive analogs [m-nitro-PCP and 1-piperidinocyclohexanecarbonitrile (PCC)] were examined in this study. In a test of spatial alternation performance in rats, PCP and m-amino-PCP were much more potent behavior modifiers than were PCC and m-nitro-PCP. We studied the effects of the drugs on the ionic channels of the electrically excitable membrane and of the nicotinic acetylcholine (AcCho) receptors at the neuromuscular junction of frog skeletal muscle. All four compounds blocked the indirectly elicited muscle twitch and depressed the amplitude and rate of rise of directly elicited muscle action potentials. They also caused a voltage- and concentration-dependent decrease in the peak amplitude of the endplate current but did not react with the nicotinic AcCho receptor. These observations indicate that the four compounds have comparable blocking effects on the ionic channels associated with the nicotinic AcCho receptor. In contrast, the behaviorally active agents could be distinguished from behaviorally inactive ones by their effects on K+ conductance. PCP and m-amino-PCP blocked delayed rectification in frog sartorius muscles, prolonged the muscle action potential more than 2-fold, and markedly potentiated the directly elicited muscle twitch. The behaviorally active compound also blocked depolarization-induced 86Rb+ efflux from rat brain synaptosomes (presumably a measure of K+ conductance) and increased quantal content at the frog neuromuscular junction. In these actions, m-nitro-PCP was much less effective, and PCC was relatively ineffective. Because PCP and m-amino-PCP are much more potent behavior modifiers than PCC and m-nitro-PCP, we suggest that the behavioral effects of PCP and m-amino-PCP, may be due to a block of K+ conductance and enhancement of transmitter release at central neurons.
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PMID:The behavioral effects of phencyclidines may be due to their blockade of potassium channels. 627 89

The following monohydroxy derivatives of 1-(1-phenylcyclohexyl)piperidine (phencyclidine, PCP) were synthesized: o-, m-, and p-phenols of PCP, 1-(1-phenylcyclohexyl)-4-piperidinol, and two stereoisomeric pairs of 3-phenyl-3-(1-piperidinyl)cyclohexanol and 4-phenyl-4-(1-piperidinyl)cyclohexanol. Inhibition of specific binding of tritiated PCP, morphine, or quinuclidinyl benzylate (QNB) in rat brain homogenates was measured for these compounds. Inhibition of PCP binding for selected compounds correlated with mouse rotarod assay activity. The most characteristic effects of hydroxylation of PCP on the cyclohexyl, piperidine, or phenyl moieties are the following: (i) it generally decreases its activity in inhibiting [3H]PCP binding by a factor of 10 to 80; (ii) it does not produce a large variation in the affinity for the morphine receptor; (iii) it produces a considerable decrease of the affinity for the muscarinic receptor. An important exception to these general observations was the metaphenolic derivative of PCP. This PCP derivative has an affinity for the [3H]PCP binding sites that is 8 times higher than that of PCP itself; its affinity for the muscarinic receptor is only twice lower than that of PCP, but its affinity for the morphine receptor is 430 times higher than that of PCP and only one order of magnitude lower than that of morphine itself.
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PMID:Chemical synthesis and molecular pharmacology of hydroxylated 1-(1-phenylcyclohexyl-piperidine derivatives. 627 47

Phencyclidine (1-(1-phenylcyclohexyl)piperidine [PCP]), a behaviorally active analogue (1-(1-m-aminophenylcyclohexyl)piperidine [m-amino-PCP]), and two behaviorally inactive analogues (1-(1-m-nitrophenylcyclohexyl)piperidine and 1-piperidinocyclohexanecarbonitrile) block neuromuscular transmission, depress the amplitude and rate of rise of directly elicited action potentials in frog sartorius muscle, and cause voltage- and concentration-dependent decreases of the peak end-plate current amplitude. This implies that all four compounds block the ion channel of the acetylcholine (ACh) receptors. Only PCP and m-amino-PCP prolong the action potential, block delayed rectification, potentiate muscle twitch, increase quantal content of end-plate potentials, and block K+-induced 86Rb+ efflux from rat brain synaptosomes. PCP also possesses central and peripheral antimuscarinic activity but is much less potent than 3-quinuclidinyl benzilate (QNB). Atropine, scopolamine, and QNB require much higher concentrations to induce behavioral alterations than to block muscarinic receptors. Thus PCP and some of its behaviorally active and inactive derivatives share two common effects, blockade of the nicotinic ACh receptor-ion channel complex and blockade of central and peripheral muscarinic receptors. The feature that apparently separates behaviorally active from inactive derivatives of PCP is their ability to block K+ conductance (gK) and thereby potentiate muscle twitch and increase the release of transmitters from central and peripheral synapses. The similarity between PCP-induced behavioral alterations and primary schizophrenia in humans raises the possibility of involvement of an altered gK in the human disease.
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PMID:Interactions of phencyclidine with ion channels of nerve and muscle: behavioral implications. 630 62

Phencyclidine hydrochloride (PCP), injected subcutaneously into rats 30 min before exposure to the chemical convulsant flurothyl, raised seizure thresholds in a dose-related manner. The narcotic antagonist naloxone was ineffective in blocking the PCP-induced effect. This anti-convulsant property of PCP is like that previously reported for the narcotic agonist-antagonists cyclazocine and SKF 10,047 (N-allylnormetazocine), which also resemble PCP in their ability to induce psychotomimetic behavior. The data support the idea that these three drugs act on the same receptors.
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PMID:The anticonvulsant effect of phencyclidine in rats. 679 Dec 14

In order to investigate the structural requirements for a cycloalkyl moiety in the potent hallucinogen 1-(1-phenylcyclohexyl)piperidine (PCP, 1), a series of structural analogues was synthesized in which the size of the cycloalkyl ring was varied from three carbons to eight carbons. Biological activities of these compounds were assessed in an in vitro assay (phencyclidine binding assay) and an in vivo assay (discriminative stimulus assay). As the cycloalkyl ring size decreased from that of cyclohexane (PCP), PCP-like activity declined in both assays, but as the cycloalkyl ring size became larger than cyclohexane, a sharp decline in PCP-like activity was observed in the in vivo assay, while activity in the in vitro assay was only slightly less than that of PCP. 1-(1-Phenylcyclooctyl)piperidine (8) had potent competitive binding properties in the in vitro binding assay but produced no observable PCP-like effects in the in vivo assay. The importance of the cycloalkyl ring in the structure of PCP was demonstrated by testing benzylpiperidine (2), which had almost no measurable activity in either assay.
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PMID:Structure-activity relationships of the cycloalkyl ring of phencyclidine. 731 Aug 19

Phencyclidine hydrochloride (PCP) is a psychoactive drug that in small doses produces agitation, excitement, and disorientation, but in larger doses results in stupor, convulsions, coma, and death. Two accident victims under the effects of phencyclidine were in coma. A history of phencyclidine abuse was not initially available in either instance. Head injury was suspected in both patients, although their neurological symptoms suggested a state of sensory blockade. Phencyclidine abuse should be considered in all patients with atypical coma despite a clear history of trauma.
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PMID:Phencyclidine abuse mimicking head injury. 737

Binding of 1-[1-(2-[3H]thienyl)cyclohexyl]piperidine ([3H]TCP) to mouse brain and spinal cord membranes was studied using compounds selective for the NMDA-coupled 1-(1-phenylcyclohexyl)piperidine (PCP) and/or sigma recognition sites. In both tissues, [3H]TCP labeled two populations of binding sites. Density of the low-affinity sites was approximately the same in both tissues, but the population of the high-affinity [3H]TCP sites was three times bigger in the brain than in the spinal cord. Self- and cross-displacement studies showed that the high-affinity [3H]TCP binding sites could be identical with NMDA receptor-coupled PCP sites, whereas the low-affinity [3H]TCP sites may be associated with sigma binding sites in both tissues. The NMDA-coupled PCP sites labeled in the presence of 6.25 nM [3H]TCP constituted a much higher percentage of the total binding in the brain (75%) than in the spinal cord (44%). Consistent with this, reintroduction of glycine and glutamate significantly increased, but DA antagonists significantly inhibited [3H]TCP binding in the brain but not in the spinal cord. Together, these data suggest that a large component of [3H]TCP-labeled binding sites in the spinal cord may be associated with sigma but not the NMDA receptor-coupled PCP sites.
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PMID:Density of NMDA-coupled and uncoupled 1-[1-(2-[3H]thienyl) cyclohexyl]piperidine recognition sites in the brain and spinal cord: differential effects of NMDA agonists and antagonists. 793 31

Carbetapentane (1, 2-[2-(diethylamino)ethoxy]ethyl 1-phenyl-1-cyclopentanecarboxylate) binds with high affinity to sigma sites and is a potent antitussive, anticonvulsant, and spasmolytic agent. However, carbetapentane interacts at muscarinic binding sites as well, and it is not clear whether either of these receptor systems is involved in the mechanism(s) of action(s) of this drug. In an attempt to determine whether these psychoactivities can be attributed to interaction at sigma sites, a series of carbetapentane analogs were prepared. Phenyl ring substitution; contraction, expansion, and replacement with a methyl group of the cyclopentyl ring; replacement of the carboxylate function with an amide, methyl ether, and methylamine; and replacement of the N,N-diethyl substituent with a morpholino or piperidino moiety were investigated. All of these novel analogs were evaluated for binding to sigma 1 and sigma 2 sites, and comparison of binding at muscarinic m1 and m2 and PCP (1-(1-phenylcyclohexyl)piperidine) receptors was performed. All of the compounds were selective for sigma 1 over sigma 2 sites, with the three most selective analogs being compounds 34 (65-fold), 35 (78-fold), and 39 (51-fold). None of the compounds were active at PCP sites, and chemical modification including (1) replacing the ester function, (2) replacing the cyclopentyl ring with a smaller ring system (cyclopropyl) or a methyl group, and (3) replacing the diethylamino moiety with a morpholino group resulted in > 220-fold selectivity over muscarinic receptor binding. Therefore, several of these novel compounds are potent, sigma 1-selective ligands which can now be investigated as potential antitussive, anticonvulsant, and antiischemic agents. These studies may reveal whether sigma 1 sites play a role in the pharmacological actions of these drugs.
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PMID:Novel 1-phenylcycloalkanecarboxylic acid derivatives are potent and selective sigma 1 ligands. 805 77

Phencyclidine hydrochloride (PCP) was tested for its ability to alter a variety of immune effector and regulatory functions in vitro. B6C3F1 murine splenic lymphocytes or elicited peritoneal macrophages were cultured in vitro with medium only or medium containing 10(-10)-10(-4) M PCP. Macrophages cultured with or without PCP were stimulated with lipopolysaccharide, and production of interleukin 6 (IL-6) and tumor necrosis factor (TNF) was assessed by bioassay. Cytotoxic T-cell effector function was determined following 5-day lymphocyte co-culture with tumor stimulator cells in the presence of PCP. In addition, the ability of T-lymphocytes to produce specific immunoregulatory cytokines IL-2 and IL-4 in the presence of PCP was quantitated by bioassay. B-lymphocyte function was determined by quantitating lymphocyte proliferation following stimulation with anti-IgM antibody and murine IL-4. Natural immunity was assessed by culturing lymphocytes with or without PCP for 24 h, then quantitating basal and IL-2 augmented natural killer (NK) cell activity. In the absence of effects on cell viability, significant suppression of IL-2 production by T-cells was noted at pharmacologically relevant PCP concentrations (1 microM). In vitro concentrations of 10 microM suppressed the generation of specifically sensitized cytotoxic T-cells. In addition, PCP significantly suppressed both IL-2-augmented NK function as well as B-lymphocyte proliferation. By comparison, macrophage IL-6 production was not affected by any concentration of PCP examined in this study.
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PMID:Phencyclidine exposure alters in vitro cellular immune response parameters associated with host defense. 823 30


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