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)

Phencyclidine binds with high affinity to both PCP and sigma receptors. We investigated whether the clonal cell line PC12 expressed either of these receptors, and found that these cells contain a haloperidol-sensitive (+)-[3H]3-PPP binding site with a KD of 56 nM, but no PCP binding sites. The (+)3-PPP binding sites in PC12 cells displayed a reversed stereoselectivity for the benzomorphan opiates compared to CNS sigma receptors. Neither nerve growth factor nor sodium butyrate treatment affected the expression of either (+)-3-PPP or TCP binding sites in PC12 cells.
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PMID:Expression of (+)-3-PPP binding sites in the PC12 pheochromocytoma cell line. 256 79

Extracellular single unit recording techniques were used to study the effects of selective sigma-receptor agonist [(+)-3-PPP, (+)-pentazocine, and DTG] and selective sigma-receptor antagonists (BMY 14802 and Rimcazole) on dopamine neurons of the substantia nigra. Intravenous (IV) administration of sigma agonists decreased, whereas IV administration of the sigma antagonist BMY-14802 increased the firing rate of dopamine neurons. The other sigma antagonist Rimcazole produced inconsistent changes in dopamine unit activity. These data, in conjunction with anatomic data suggesting sigma receptor localization on dopamine neurons in the substantia nigra (Gundlach et al: J Neurosci 6:1757-1770, 1986; Graybiel et al: Soc Neurosci Abstr 13:28, 1987) demonstrate a relationship of the sigma receptor with the dopamine system and further suggest a model system to study agonist-antagonist interactions of sigma ligands. The selective phencyclidine (PCP) agonist MK-801 was equipotent to PCP in regard to stimulatory properties on dopamine neurons. However, the relative potencies do not correspond to their relative binding affinities, suggesting that non-PCP-receptor properties may mediate this effect.
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PMID:Electrophysiological effects of selective sigma-receptor agonists, antagonists, and the selective phencyclidine receptor agonist MK-801 on midbrain dopamine neurons. 257 40

The effect of guanine nucleotides and ions on (+)-[3H]3-(3-hydroxyphenyl)-N-(1-propyl)piperidine [+ )-[3H]3-PPP), (+)-N-[3H]allylnormetazocine ((+)-[3H]SKF 10047) and [3H]1-[1-(3-hydroxyphenyl)-cyclohexyl]piperidine ([3H]PCP-3-OH) specific binding to rat brain membranes was examined. These 3 compounds are proposed as prototypical ligands for the labeling of the sigma- and phencyclidine (PCP)-receptor subtypes. Competition binding experiments of (+)-SKF 10047 with (+)-[3H]3-PPP yielded a biphasic inhibition curve which transformed to a monophasic curve when membranes were incubated in the presence of Gpp(NH)p (0.1 mM). The common (+)-[3H]3-PPP/(+)-SKF 10047 binding component is more susceptible to Gpp(NH)p than the high affinity [3H]PCP-3-OH/(+)-SKF 10047 common binding component. Low affinity [3H]PCP-3-OH binding, which may represent a PCP-selective site, is not affected by GTP and Gpp(NH)p. Mono- and divalent cations markedly inhibit high affinity [3H]PCP-3-OH binding but they had a differential inhibitory effect on the binding of the other radioligands tested. These findings suggest differences in the regulation of multiple psychotomimetic (sigma- and PCP) binding sites by guanine nucleotides and ions.
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PMID:Regulation of the binding of sigma- and phencyclidine (PCP)-receptor ligands in rat brain membranes by guanine nucleotides and ions. 283 73

Opioid, sigma, and phencyclidine (PCP) receptors were characterized in the mouse neuroblastoma--Chinese hamster brain hybrid cell line NCB-20. Quantitative receptor assays under equilibrium binding conditions with highly specific radioligands demonstrated the presence of delta, but not mu or kappa, opioid receptors on NCB-20 cell membranes. NCB-20 cells were shown to possess two distinct sites specific for sigma opioids and PCP derivatives. One site was labeled by (+)-[3H]N-allylnormetazocine [(+)-[3H]SKF-10,047] (Kd = 69 nM; Bmax = 4100 fmol/mg of protein). The rank order of potency of drugs at this site was (+)-3-(3-hydroxy-phenyl)-N-(1-propyl)piperidine [(+)-3-PPP] greater than haloperidol greater than (+)-SKF-10,047 greater than (+/-)-ethylketocyclazocine greater than (+/-)-bremazocine greater than N-[1-(2-thienyl) cyclohexyl]piperidine (TCP) greater than dexoxadrol. This site is similar in its ligand selectivity to the haloperidol-sensitive sigma receptor of rat brain. The other site was labeled by the potent phencyclidine derivative [3H]TCP (Kd = 335 nM; Bmax = 9300 fmol/mg of protein). This density is equivalent to approximately 60,000 sites/cell. The rank order of potency of drugs at this site was TCP greater than (+)-3-PPP greater than PCP greater than dexoxadrol greater than haloperidol greater than cyclazocine greater than levoxadrol greater than (+)-SKF-10,047; mu and delta ligands were inactive. This site is similar to the rat brain PCP receptor. The NCB-20 cell line is the only cultured cell line that has been demonstrated to have PCP receptors.
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PMID:Characterization of opioid, sigma, and phencyclidine receptors in the neuroblastoma-brain hybrid cell line NCB-20. 284 88

To compare the actions of prototypic drugs which are selective for phencyclidine and sigma receptors, the electrophysiological effects of phencyclidine (PCP),3-[3-hydroxyphenyl]-N-(1-propyl)piperidine [+)3-PPP), and 1,3-di(2-tolyl)guanidine (DTG) on CA1 hippocampal pyramidal neurons were examined. A wide range of concentrations of drug was tested to differentiate specific, receptor-mediated effects from nonselective, anesthetic-like actions. At relatively large concentrations (0.1-1 mM), each compound reversibly increased the threshold of action potentials driven by Schaffer collaterals, the duration of action potentials and membrane resistance. The low potencies and rank order of potency suggested that phencyclidine, (+)3-PPP, and DTG were not acting through either high affinity sigma or phencyclidine receptors. These compounds did have receptor-mediated effects at smaller concentrations. Since none of the compounds affected evoked excitatory or inhibitory postsynaptic potentials (EPSP or IPSP) or driven action potentials at subanesthetic concentrations (less than 100 microM), no evidence was found to support the hypothesis that the actions of phencyclidine result from enhanced release of transmitter, caused by the inhibition of a presynaptic potassium conductance. As observed in other neurons, phencyclidine blocked excitations in CA1 pyramidal cells mediated by N-methyl-D-aspartic acid (NMDA) at behaviorally relevant concentrations (1-10 microM). However, (+)3-PPP (1 microM-1 mM) enhanced the pyramidal cell response to NMDA. Alone, DTG did not effect the NMDA-induced response but did inhibit the enhancement induced by (+)3-PPP. The agonist and antagonist actions of the sigma-selective ligands, (+)3-PPP and DTG, suggests that they modify NMDA-induced responses by acting at the sigma receptor.
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PMID:Comparison of the actions of phencyclidine and sigma ligands on CA1 hippocampal pyramidal neurons in the rat. 284 30

(+)[3H]SKF 10,047 and (+)[3H]3-PPP label a homogeneous population of sites in NCB-20 cell membranes that apparently represent benzomorphan specific binding sites previously reported for this cell line. Their drug specificity indicates that these sites are very similar to sigma receptor binding sites labeled in brain tissues by these ligands and do not represent PCP receptors.
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PMID:Sigma receptors on NCB-20 hybrid neurotumor cells labeled with (+)[3H]SKF 10,047 and (+)[3H]3-PPP. 301 58

The benzomorphan opioid, SKF 10,047, is the prototypical agonist for the sigma receptor. In this study, pharmacological and autoradiographic analyses reveal that (+)-[3H]SKF 10,047 labels two sites in brain: a high affinity site resembling the sigma receptor and a second site, labeled with lower affinity by (+)-[3H] SKF 10,047, similar to the phencyclidine (PCP) receptor. The drug specificity of the high affinity site for (+)-[3H]SKF 10,047 resembles that of the putative sigma receptor labeled with (+)-[3H]-3-[3-hydroxyphenyl]-N-(1-propyl)piperidine [(+)-[3H]-3-PPP], being potently inhibited by (+)-3-PPP, haloperidol and (+/-)-pentazocine, and demonstrating stereoselectivity for the (+)-isomer of SKF 10,047. In contrast, these drugs are weak in inhibiting binding of (+)-[3H]SKF 10,047 to the low affinity site, whereas PCP analogs, such as 1-[1-(2-thienyl)cyclohexyl]piperidine (TCP) and 1-[1-(m-aminophenyl)cyclohexyl]piperidine (m-NH2-PCP), are potent inhibitors. No stereoselectivity for the isomers of SKF 10,047 is noted at the low affinity binding site. Autoradiographic localizations of high affinity (+)-[3H]SKF 10,047 binding sites closely resemble those of (+)-[3H]-3-PPP labeled sites with high levels of binding in the hippocampal pyramidal cell layer, hypothalamus, pontine and cranial nerve nuclei and cerebellum. By contrast, low affinity (+)-[3H]SKF 10,047 sites are most abundant in nonpyramidal layers of the hippocampus, the cerebral cortex and thalamic nuclei, similar to the distribution of [3H]TCP labeled PCP receptors.
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PMID:Pharmacological and autoradiographic discrimination of sigma and phencyclidine receptor binding sites in brain with (+)-[3H]SKF 10,047, (+)-[3H]-3-[3-hydroxyphenyl]-N-(1-propyl)piperidine and [3H]-1-[1-(2-thienyl)cyclohexyl]piperidine. 301 48

In rats trained to discriminate the prototypic sigma receptor agonist, (+)-N-Allylnormetazocine [(+)-N-Allylnormetazocine [(+)-NANM/SKF 10,047], from saline, the (+)- but not the (-)-isomer of 3-(3-hydroxyphenyl)-N-(1-propyl)piperidine (3-PPP) produced (+)-NANM-like discriminative stimuli. (+)-3-PPP binds stereo selectively to the (+)-NANM binding site, but not to the phencyclidine binding site. Additionally, phencyclidine was found to produce (+)-NANM-like discriminative stimuli. Although the 3-PPP isomers were shown to produce changes in central dopaminergic activity (Hjorth et al. Life Sci 37, 673, 1985), the discriminative stimulus properties of (+)-3-PPP are apparently not mediated via the dopaminergic system. This hypothesis is supported by the fact that apomorphine did not produce (+)-NANM-like discriminative stimuli. These stimuli are thus non-dopaminergic and may be due to the (+)-3-PPP actions at the sigma binding site. However, it is possible that (+)-NANM, PCP, and (+)-3-PPP may have common non-sigma pharmacologic properties that account for the similar discriminative stimulus properties of these compounds.
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PMID:(+)-3-(3-hydroxyphenyl)-N-(1-propyl)piperidine [(+)-3-PPP] but not (-)-3-PPP produces (+)-N-allylnormetazocine-like (SKF 10,047) discriminative stimuli. 379 7

To investigate the modulatory effects of sigma ligands on the N-methyl-D-aspartate (NMDA) receptor-ion channel complex in vivo, we examined the intact cell binding of 3H-N-[1-(2-thienyl)cyclohexyl]piperidine (3H-TCP) to cultured neuronal cells prepared from fetal rat telencephalon. The 3H-TCP binding was saturable, reversible, and inhibited by a selective NMDA receptor antagonist, D-amino-5-phosphonovaleric acid. MII-limolar Mg2+ inhibited 3H-TCP binding both in the absence and presence of L-glutamate. 5-Methyl-10,11-dihydro-5H-dibenzo [a,d]cyclohepten-5,10-imine maleate (MK801) inhibited 3H-TCP intact cell binding in a competitive manner, while haloperidol inhibited it in a noncompetitive manner. The effect of the test drugs to inhibit 3H-TCP intact cell binding was in the order of dextromethorphan, haloperidol > (+/-)MK 801 > (+)pentazocine > (-)pentazocine > DTG > PCP > (+)-N-allylnormetazocine [(+)SKF 10047] > (+)3-(3-hydroxyphenyl)-N- (1-propyl)piperidine [(+)3-PPP] > (-)SKF 10047 > (-)3-PPP. The IC50 values of the six sigma ligands for 3H-TCP binding were closely correlated with the Ki values of the corresponding drugs for DTG site 1 in the guinea pig brain reported by Rothman et al. (1991). These findings suggest that the sigma ligand indirectly modulates the NMDA receptor ion channel complex, presumably through sigma 1 sites in vivo as well as in vitro.
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PMID:Sigma ligands indirectly modulate the NMDA receptor-ion channel complex on intact neuronal cells via sigma 1 site. 752 31

The role of the putative sigma receptor in mediating neuroprotection against glutamate-induced neuronal injury was examined in mature cultured rat cortical neurons. With the exception of the selective sigma 1 ligand (+)-3-PPP, all of the sigma ligands tested were neuroprotective, preventing glutamate-induced morphological changes and increases in LDH release. Their rank order of neuroprotective potency (and EC50 values) was as follows: (+)-SKF 10,047 (0.81 microM) > (+)- cyclazocine (2.3 microM) > dextromethorphan (3.1 microM) = haloperidol (3.7 microM) > (+)-pentazocine (8.5 microM) > DTG (42.7 microM) = carbetapentane (46.3 microM). When corrected for relative sigma versus PCP binding affinity, it appears that a positive correlation exists between neuroprotective potency and sigma 1 site affinity. However, there does not appear to be a significant correlation between neuroprotective potency and the sigma 2 site. Critically, none of the sigma ligands were neurotoxic when tested alone at concentrations at least 5-30 times their respective neuroprotective EC50 values. Results from preliminary experiments with the selective sigma 1 ligand (+)-pentazocine indicated that sigma-mediated neuroprotection may involve the buffering of glutamate-induced calcium flux. Collectively, the results of these in vitro experiments demonstrate that sigma ligands are neuroprotective and therefore deserve further exploration as potential therapeutic agents in in vivo models of CNS injury and neurodegenerative disorders.
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PMID:Sigma receptor-mediated neuroprotection against glutamate toxicity in primary rat neuronal cultures. 772 32

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