EC:3.4.16.2 - FACTA Search

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

Two high affinity phencyclidine (PCP) binding sites, labelled by [3H] 1-[1-(2-thienyl)cyclohexyl]piperidine ([3H]TCP), have been identified in guinea pig brain, with one site coupled to the N-methyl-D-aspartate (NMDA) receptor (site 1) and the other site associated with the dopamine reuptake carrier complex (site 2). In this study, PCP enhanced the dissociation of [3H]TCP from PCP site 1 and site 2, while (+)-MK801 only enhanced dissociation of [3H]TCP from PCP site 1. Although additional studies will be required to determine the exact mechanism(s) of these effects, these data demonstrate that the interactions of PCP with both site 1 and site 2 are more complex than previously appreciated.
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PMID:Pseudoallosteric modulation by (+)-MK801 of NMDA-coupled phencyclidine binding sites. 217 83

Two highly selective radiolabeled probes for sigma receptors were found to bind with high affinity and capacity to membranes from undifferentiated PC12 cells. [3H]1,3-di-o-tolylguanidine [( 3H]DTG) bound with Kd = 23.7 +/- 4.6 nM and Bmax = 2025 +/- 660 fmol/mg protein. The Kd and Bmax for [3H](+)-3-(3-hydroxyphenyl)-N-(1-propyl)piperidine ([3H](+)-3-PPP) were 86.3 +/- 21.6 nM and 1539 +/- 242 fmol/mg protein, respectively. These binding parameters were comparable to those observed in guinea pig brain, although the Kd for [3H](+)-3-PPP was 3-fold higher in the PC12 membranes. Both the PC12 and guinea pig brain sites exhibited high affinity for haloperidol, moderate affinity for phencyclidine (PCP), and negligible affinity for MK-801, apomorphine, and (-)-sulpiride. These data suggest a relationship of the PC12 site to sigma receptors. However, all (+)-opiates [+)-benzomorphans and (+)-morphinans) tested bound with markedly lower affinity to the PC12 site compared to guinea pig brain. These include (+)-N-allylnormetazocine [+)-SKF 10,047), (+)-pentazocine, and dextrallorphan. In fact, PC12 sites exhibited preference for (-)-benzomorphans, the reverse stereoselectivity of guinea pig brain sites. Binding of [3H]N-[1-(2-thienyl)cyclohexyl]piperidine [( 3H]TCP) could not be detected, demonstrating absence of PCP receptors on this cell line. Differentiation of cells by treatment with nerve growth factor had no effect on sigma binding parameters. Membranes from guinea pig brain and PC12 cells were photoaffinity-labeled using [3H]azido-di-o-tolylguanidine. In guinea pig brain, a polypeptide of 25 kDa was specifically labeled. However, label was incorporated into polypeptides of 18 kDa and 21 kDa in membranes from PC12 cells. In view of the otherwise similar binding characteristics, the marked differences in affinity for (+)-benzomorphans and molecular weight suggest that PC12 cells contain a molecular form of sigma receptor distinct from that predominant in guinea pig brain. This raises the possibility of multiple sigma receptor types.
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PMID:A sigma-like binding site in rat pheochromocytoma (PC12) cells: decreased affinity for (+)-benzomorphans and lower molecular weight suggest a different sigma receptor form from that of guinea pig brain. 217 17

The purpose of this experiment was to investigate the interactions of norepinephrine with PCP (phencyclidine) and sigma receptor agonists--modulated GABA (gamma aminobutyric acid) response in the cerebellum. Drugs were directly applied to a single cerebellar Purkinje neuron of urethane-anesthesitized rat through a multibarrel pipette. (+)PCMP [1-(-1-phenylcyclohexyl)-3-methyl piperidine], a PCP receptor agonist, and dexoxadrol, a sigma receptor agonist, significantly enhanced GABA induced inhibition. In norepinephrine-depleted animals, however, both (+)PCMP and dexoxadrol did not modulate GABA's effect. In conclusion, our findings indicated that the PCP/sigma-induced facilitation of GABA reactions were mediated through noradrenergic system in the cerebellum.
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PMID:Facilitation of GABA-induced depression with PCP and sigma receptor agonists was mediated through catecholaminergic pathways. 217 28

1. CI-977 is a new, nonpeptide kappa-opioid compound that has been synthesized and its pharmacological properties determined in a series of in vitro and in vivo rodent models. 2. In a radioligand binding studies, with guinea-pig forebrain homogenates, CI-977 bound with high affinity to [3H]-U69593-labelled kappa-sites (Ki = 0.11 nM) but with low affinity to [3H]-[D-Ala2, MePhe4, Gly-ol5] enkephalin (DAMGO) labelled mu-sites (Ki = 99 nM) and [3H]-[D-Pen2.5]enkephalin (DPDPE) labelled delta-sites (Ki = 1.04 microM). CI-977 also bound with negligible affinity to [3H]-(+)-3-(1-propyl-3-piperi-dinyl)phenol (3-PPP) labelled sigma-sites (Ki = 1.9 microM) and [3H]-1-(1-[2-thienyl]cyclohexyl)piperidine (TCP) labelled PCP sites (Ki greater than 10 microM). 3. CI-977 produced a potent inhibition of the electrically-evoked contractions of the guinea-pig ileum and rabbit vas deferens with IC50 values of 0.087 nM and 3.3 nM, respectively. The pKB values for the opioid antagonists naloxone (7.6) and norbinaltorphimine (10.5) supported the kappa nature of the CI-977-mediated effects in the smooth muscle assays. 4. CI-977 was a potent antinociceptive agent against a mechanical noxious stimulus in rats following intravenous, intramuscular, subcutaneous and oral administration. CI-977 was also effective against mechanical and chemical noxious stimuli in the mouse but ineffective against a thermal stimulus. The antinociceptive effects produced by CI-977 were completely reversed by naloxone (1 mg kg-1, s.c.). 5. At doses close to those required to produce antinociception, CI-977 also caused a naloxone-reversible diuresis and inhibition of locomotor activity.6. The in vitro and in vivo pharmacological profile of CI-977 demonstrates that it is a potent and selective agonist at the Kappa-opioid receptor.
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PMID:CI-977, a novel and selective agonist for the kappa-opioid receptor. 217 14

Thirty-eight analogues of 1-phenylcyclohexylamine (PCA), a phencyclidine (PCP) derivative, were examined for their activities in the mouse maximal electroshock (MES) seizure test and in a motor-toxicity assay. In addition, we determined the binding affinities of the compounds for PCP acceptor sites in rat brain membranes labeled with [3H]-1-[1-(2-thienyl)cyclohexyl]piperidine. Many of the analogues were protective against MES seizures (ED50s of 5-41 mg/kg, ip) and all of these compounds caused motor toxicity. The potencies in the motor toxicity and MES seizure tests showed a moderate correlation with the affinities for PCP sites. Several analogues exhibited a greater separation of potencies in the motor toxicity and MES seizure tests than did the parent compound PCA. These were obtained by (i) 3-methylation of the cyclohexyl ring trans to the phenyl ring, (ii) methoxylation at the ortho position on the phenyl ring, and (iii) contraction of the cyclohexane ring to form the corresponding cyclopentane.
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PMID:Synthesis and anticonvulsant activity of 1-phenylcyclohexylamine analogues. 232 67

Extracellular single unit recording techniques were used to evaluate the effects of two phencyclidine (PCP) derivatives. N-[1-(2-benzo(b)thiophenyl)cyclohexyl]piperidine (BTCP) and N-[1-(2-thiophenyl)cyclohexyl]piperidine (TCP) on the electrophysiological activity of antidromically identified nigrostriatal dopamine (DA) neurons in chloral hydrate-anesthetized rats. I.v. BTCP produced a dose-dependent decrease in the firing rate of identified nigrostriatal DA neurons whereas TCP elicited a dose-dependent biphasic effect which was characterized by an activation of cell firing at low doses followed by a reversal of the response with larger doses. A hemitransection of the brain anterior to the substantia nigra significantly reduced the inhibitory effect of BTCP while this surgical procedure did not affect the response to TCP. However, iontophoretic application of BTCP induced a current-dependent inhibition of the spontaneous activity of cells while local application of TCP had no effect on the firing rate of these cells. These data indicate that PCP analogs are able to interact with the nigrostriatal DAergic pathway through distinct and opposing mechanisms. The results are discussed in light of recent observations that BTCP is selective for the DA uptake site while TCP is selective for the high affinity PCP binding site.
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PMID:The effects of the phencyclidine analogs BTCP and TCP on nigrostriatal dopamine neuronal activity. 239 41

Two populations of phencyclidine (PCP) binding sites are shown to exist in the rat brain: a high-affinity monovalent ion-sensitive site (Kd of 10-14 nM for [3H]TCP, [3H]N-[1-(2-thienyl)cyclohexyl]piperidine), which exists in both the frontal cortex and the hippocampus, and a lower affinity site (Kd of 80-130 nM for [3H]TCP) which is found in the hippocampus but not in the frontal cortex. The nature of the interactions between the ion-binding sites and the high affinity PCP receptors depend on both ligand structure (PCP or TCP) and the ion involved (K' or Na'). The high-affinity sites are associated with an Mr 90,000 polypeptide whose labeling by [3H]azido phencyclidine is selectively inhibited by monovalent ions.
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PMID:Multiple mode of binding of phencyclidines: high affinity association between phencyclidine receptors in rat brain and a monovalent ion-sensitive polypeptide. 243 96

Rabbit antibodies were generated against five unique epitopes of phencyclidine (PCP)-like molecules to determine the molecular requirements for arylcyclohexylamine binding to the PCP receptor. Three of the haptens contained the three ring structures of PCP. A fourth hapten was synthesized from a derivative of the highly potent PCP analog, 1-[1-(2-thienyl)cyclohexyl]piperidine. The fifth hapten, 5-[N-(1'-phenylcyclohexyl)amino]pentanoic acid, was used as a haptenic model for N-ethyl-1-phenylcyclohexylamine, one of the most potent arylcyclohexylamines. These haptens were bound covalently to bovine serum albumin and were then used as antigens to immunize rabbits. The affinities and cross-reactivity patterns of the resulting five antibodies were studied in a [3H]PCP radioimmunoassay using standard curves of various arylcyclohexylamines. The dissociation constants ranged from 1.9 to 51.6 nM. From the average IC50 values of the radioimmunoassay dose-response curves, the relative potency of each ligand to PCP was determined. Least-squares linear regression was used to correlate these data with relative potency data from two [3H]PCP receptor binding assays and a PCP drug discrimination assay in the rat. Only relative potency data from the anti-5[N-(1'-phenylcyclohexyl)amino]pentanoic acid antibody showed a significant correlation with data from the three pharmacological studies (r2 = 0.80, 0.57 and 0.78, respectively; p less than .05 in all cases). These data indicated the 5-[N-(1'-phenylcyclohexyl)amino]pentanoic acid hapten contained the pharmacologically active features needed for arylcyclohexylamine binding to the PCP receptor.
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PMID:Antibodies against arylcyclohexylamines and their similarities in binding specificity with the phencyclidine receptor. 245 75

We investigated the effects of phencyclidine (PCP), a psychotomimetic dissociative anesthetic, and several related drugs on voltage-dependent K+ currents in PC12 cells, a neuron-like clonal cell line derived from a rat pheochromocytoma. Whole-cell voltage clamp recordings demonstrated two kinetically distinct voltage-dependent outward (K+) current components in these cells: a rapidly activating and inactivating component, IA, that was selectively eliminated by 4-aminopyridine (2 mM) and a slowly activating, minimally inactivating (sustained) component, IK, that was specifically blocked by tetraethylammonium (20 mM). PCP (1-100 microM) produced a dose-dependent blockade of both IK and IA, however, at low doses the drug selectively reduced IK with little effect on IA; the IC50s for blockade of IK and IA were 4 and 25 microM, respectively. The blockade of IK was voltage-dependent so that the degree of block decreased with increasing depolarization, indicating that the blocking mechanism is likely one in which the positively charged PCP molecule is drawn into the channel pore. Several PCP related drugs also suppressed IK. Thienyl-PCP (TCP), a drug that is behaviorally more potent than PCP, partially blocked IK at low doses (31% at 1 microM), but even at high doses (25 microM) the degree of block was never as great as that produced by PCP. The optically active PCP congeners (+)-PCMP (1-(1-phenylcyclohexyl)-3-methyl-piperidine) and dexoxadrol were also potent blockers of IK. However, in contrast to the stereospecificity these compounds demonstrate in binding to high-affinity PCP receptors and in eliciting PCP-like behavioral responses, their enantiomers (-)-PCMP and levoxadrol showed similar potencies as the parent compounds in blocking IK. These results demonstrate that PCP and related drugs are powerful, selective blockers of IK in PC12 cells. The structure-activity studies indicate that this effect occurs at a site that is pharmacologically distinct from the behaviorally relevant PCP receptor. Blockade of K+ channels is unlikely to be responsible for the psychotomimetic or anti-convulsant properties of PCP, but could account for the convulsant potential of the drug.
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PMID:Phencyclidine selectively blocks the sustained voltage-dependent potassium conductance in PC12 cells. 245 11

Substance P and excitatory amino acids have been implicated as potential nociceptive neurotransmitters in several investigations. Excitatory amino acids acting at N-methyl-D-aspartate (NMDA) receptors are of particular interest because of the description of NMDA/phencyclidine (PCP) receptor complexes. PCP receptors are one of two populations of receptors resolved from a population previously referred to as 'sigma opioid' receptors. Agonists, including sigma opioid agonists, interacting with PCP receptors non-competitively inhibit NMDA-induced effects. Therefore, it has been suggested that NMDA/PCP receptor complexes in nociceptive systems may explain the antinociceptive effects of sigma opioid agonists. In the present studies, highly selective ligands for PCP and sigma receptors were coadministered with NMDA or substance P i.t. The rank order potency for inhibition of NMDA-induced behavior was (+/-)-5-methyl-10,11-dihydro-5H-dibenzo(a,d)cyclohepten-5,10-imine maleate (MK-801) greater than PCP greater than (+/-)N-allyl-normetazocine ((+/-)-SKF10,047). 1,3-Di-ortho-tolyl-guanidine (DTG) and (+)-3-(3-hydroxyphenyl)-N-(1-propyl)piperidine ((+/-)-3PPP) were inactive. Inhibition of NMDA-induced behavior by PCP receptor agonists was not reversed by haloperidol, a putative sigma receptor antagonist. These data support PCP, but not sigma, receptor-mediated inhibition of behavior induced by NMDA. Behavior induced by i.t. administration of substance P was similarly inhibited by PCP receptor agonists, but inhibition could be reversed by coadministration of haloperidol or (+)-butaclamol. These data suggest a dopaminergic mechanism for PCP inhibition of substance P-induced behavior. Our results confirm the existence of NMDA/PCP receptor complexes in spinal systems mediating nociception and suggest agonists may induce antinociception by interacting with spinal PCP receptors.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:In vivo characterization of phencyclidine/sigma agonist-mediated inhibition of nociception. 246 11

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