EC:3.4.16.2 - FACTA Search

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 (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.
...
PMID:Different capability of N-methyl-D-aspartate antagonists to elicit EEG and behavioural phencyclidine-like effects in rats. 136 27

The psychotomimetic effects of certain cycloalkyls and benzomorphans that interact with sigma receptors has led to the hypothesis that these sites may be important in the etiology of schizophrenia. DuP 734 [1-(cyclopropylmethyl)-4-(2'-(4''-fluoro-phenyl)-2'-oxoethyl) piperidine HBr] is a novel sigma receptor ligand. The receptor binding specificity and neuroanatomical distribution of [3H]DuP 734-labeled sigma receptors in guinea pig brain were examined using quantitative autoradiography. [3H]DuP 734 binding (10 microM haloperidol displaceable) to slide-mounted sections of guinea pig brain was saturable and of high affinity (Ki = 3.9 nM). Competition studies, under conditions identical to those used to visualize the receptor, yielded the following rank order of potency: DuP 734 > haloperidol > (+)-pentazocine > (-)-butaclamol > DTG > (+)-SKF 10,047 > (+)-3-PPP > (-)-pentazocine > (+)-butaclamol > U50,488H > (-)-SKF 10,047 > cinanserin > PCP >> MK801, sulpiride. High densities of [3H]DuP 734 binding sites displaceable by haloperidol were present in the limbic system, in particular the dorsal and ventral bands of Broca as well as the ventral pallidum. Within the hippocampus, the pyramidal layers were sparsely labeled, while higher densities of binding sites were evident in the dentate gyrus. The frontal cortex, the mammillary complex of the hypothalamus, the central gray and red nucleus of the midbrain, the pontine reticular nucleus, the Purkinje cell layer of the cerebellum and dorsal and ventral horns, as well as the central gray matter of the spinal cord, all showed enrichments of [3H]DuP 734 binding sites. Lower levels of binding were present in the other regions of the cerebral cortex including parietal, pyriform, occipital, cingulate cortex, as well as the basal ganglia, and negligible specific binding was present in the white matter tracts. The kinetic and pharmacological characteristics and distribution of [3H]DuP 734 binding sites in brain are similar to those previously reported for sigma receptors.
...
PMID:Autoradiographic identification and characterization of sigma receptors in guinea pig brain using [3H]1(cyclopropylmethyl)-4-(2'-(4''-fluorophenyl)-2'-oxoethyl) piperidine ([3H]DuP 734), a novel sigma receptor ligand. 148 5

Latent inhibition (LI) is a behavioral paradigm in which prior exposure to a stimulus not followed by reinforcement retards subsequent conditioning to that stimulus when it is paired with reinforcement. The development of LI reflects a process of learning to ignore, or tune out, irrelevant stimuli. Three experiments investigated the effects of phencyclidine (PCP) on LI. The investigation was carried out using a conditioned emotional response (CER) procedure consisting of three stages: preexposure, in which the to-be-conditioned stimulus, tone, was repeatedly presented without reinforcement; conditioning, in which the preexposed stimulus was paired with shock; and test, where LI was indexed by animals' suppression of licking during tone presentation. The three stages were conducted 24 h apart. In Experiment 1, 1 mg/kg PCP was administered either in the preexposure or in the conditioning stage or in both. Experiment 2 used 5 mg/kg PCP in the same procedure. In Experiment 3, 5 mg/kg PCP was administered throughout the LI procedure, including the test stage. In all three experiments, PCP did not affect LI. The implications of these findings for the development of animal models of schizophrenia are discussed.
...
PMID:Phencyclidine does not disrupt latent inhibition in rats: implications for animal models of schizophrenia. 151 45

It is no longer tenable to attribute all the antipsychotic action of antipsychotic drugs to dopamine (DA) D2 receptor blockade and subsequent development of depolarization inactivation of the mesolimbic or mesocortical DA neurons. The chief evidence for this position is that clozapine (CLOZ) does not differ from typical antipsychotic drugs in these regards but is more effective than typical neuroleptic drugs. The mechanism of action of atypical antipsychotic drugs related to CLOZ may involve reduction of dopaminergic activity in the mesolimbic system by a variety of mechanisms, including D1 and D2 receptor blockade. Relatively higher affinity for the serotonin (5HT)2 receptor than for the D2 receptor may also be important to the action of CLOZ-like compounds. Enhanced DA release in the mesocortical system may be relevant to the effectiveness of these agents in treating negative symptoms. Several other classes of new agents alter the dopaminergic system by means of alternative mechanisms. Partial DA agonists may modulate DA neurotransmission more adequately than pure antagonists by producing a mix of direct agonist and antagonistic effects. DA autoreceptor agonists and 5HT3 antagonists appear to act by diminishing the release of DA from some, but not all, DA neurons. Substituted benzamides are "pure" D2 antagonists with some in vivo selectivity for limbic D2 over striatal D2 receptors. Highly selective D1 antagonists have been proposed to produce equivalent antipsychotic activity and fewer extrapyramidal symptoms than D2 antagonists. Antagonists of the recently identified D3 receptors are being sought. Excessive stimulation of the N-methyl-D-aspartate (NMDA) subtype of the glutamate receptor, leading to neurotoxicity or diminished activation of this receptor, is the target of novel approaches to treating schizophrenia. Phencyclidine (PCP) antagonists that would activate the NMDA receptor and sigma receptor antagonists are of interest as antipsychotic agents. Therapeutic strategies for treating schizophrenia, schizophrenia-related disorders, and other psychoses will likely be genuinely diverse in the next decade.
...
PMID:The mechanism of action of novel antipsychotic drugs. 167 53

Drugs (e.g., PCP) which interfere with glutamatergic transmission at the N-methyl D-aspartate (NMDA) subclass of glutamate receptors precipitate both positive and negative symptoms of psychosis in humans. Based on a proposed "glutamatergic deficiency" in schizophrenia, pharmacologic facilitation of NMDA-mediated neural transmission by direct stimulation of the strychine-insensitive glycine binding site was attempted with "low-dose" milacemide, an acylated "prodrug" of glycine that readily crosses the blood brain barrier and is converted into glycine in the brain. In a prior study, "high-dose" milacemide proved to have no therapeutic utility in schizophrenia. The failure was thought, possibly, to be related to higher doses of milacemide having antagonist actions at the NMDA receptor complex. In the current study, "low-dose" milacemide (400 mg/day), as the sole pharmacotherapeutic agent, was also without significant clinical benefit. Despite our negative findings for milacemide, other strategies for facilitating NMDA-mediated neural transmission in schizophrenia might be worth pursuing.
...
PMID:An NMDA intervention strategy in schizophrenia with "low-dose" milacemide. 153 74

Drugs such as phencyclidine (PCP) that interact with PCP and sigma binding sites can produce psychotomimetic effects that resemble some symptoms of schizophrenia. Therefore, it has been suggested that PCP and sigma receptors may be important in the clinical manifestations of schizophrenia. Assays of these two binding sites in human postmortem brains showed consistent significant reductions in the density of sigma, but not PCP sites, in schizophrenics as compared with age-matched and postmortem interval-matched normal and suicide controls. Reductions in the density of sigma binding sites in schizophrenia were most prominent in temporal cerebral cortex, and were accompanied by a small increase in affinity for the ligand [3H]haloperidol. These data provide the first evidence for alterations in sigma binding sites in schizophrenia, and suggest that selective sigma ligands may be useful in the treatment of the disorder.
...
PMID:Selective loss of cerebral cortical sigma, but not PCP binding sites in schizophrenia. 184 13

The present review deals with the molecular mechanisms and elementary phenomena underlying the activation of the voltage- and chemo-sensitive membrane macromolecules: sodium- and potassium-ion channels and nicotinic ACh receptors and their associated ion channel. To achieve an understanding of their various kinetics and conformational states, a number of novel alkaloids, BTX, HTXs, gephyrotoxins, and certain psychotomimetic drugs such as phencyclidine, and many other pharmacologically active agents have been used. Biochemical assays and various electrophysiological techniques have been used in a number of biological preparations--e.g., Torpedo membranes, brain synaptosomes, amphibian and mammalian neuromuscular preparations--to describe the action of such agents. The availability of BTX and scorpion toxins together with aconitine and veratridine as activators and TTX and STX as antagonists of the voltage-sensitive sodium channels, made possible the identification and the physiological and pharmacological characterization of these channels. These studies provided the basis for understanding the mechanisms underlying electrical excitability and culminated, more recently, in the purification and reconstitution of sodium channels from rat brain and in the successful cloning of these channels with the elucidation of their primary structure. We now know that the sodium channel has a molecular mass of 316,000 daltons, consists of five subunits, and has multiple sites for various ligands. In contrast to sodium channels, various classes of potassium channels (inward and outward rectifier potassium channels and Ca(2+)-activated potassium channels) have been described. Unlike the sodium channels, there are no known specific activators for potassium channels. However, a number of potassium channel blockers such as 4-aminopyridine, HTX, histamine, and norepinephrine have been identified which complement the varying types of potassium channels in different neurons. One class of potassium channel blockers with profound medical and social implications comprises PCP and its analogues. The blockade of the potassium-induced 86Rb+ efflux from brain cells, the resulting prolongation of muscle and nerve action potentials, and the increase in transmitter release observed with PCP and some analogues are all highly suggestive of a role for the potassium channel in the behavioral effects of these drugs and its potential involvement in schizophrenia. A number of toxic principles of both plant and animal origin played a significant role in the development of our knowledge about the nAChR.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Macromolecular sites for specific neurotoxins and drugs on chemosensitive synapses and electrical excitation in biological membranes. 248 4

The interactions of phencyclidine (PCP) with the mesocortical dopaminergic system were of interest because of the putative role of this pathway in the etiology of schizophrenia. In the present investigation we examined the effects of PCP, and PCP-receptor agonist, ketamine, on dopamine (DA) release by measuring the levels of 3-methoxytyramine (3-MT), the only DA metabolite which is a reliable indicator of DA release in vivo. PCP increased DA release in the amygdala, pyriform and prefrontal cortices, while ketamine was less potent than PCP in this respect. In contrast to the changes in DA release in the cortical regions, ketamine decreased DA release in striatum, while PCP did not change DA release.
...
PMID:Differential effects of phencyclidine (PCP) and ketamine on mesocortical and mesostriatal dopamine release in vivo. 279 97

Amphetamine induced psychosis has for the past 30 years provided a useful model for the study of schizophrenia. The amphetamine model, however, has been shown to have a number of shortcomings including an inability to model the deficit symptoms of schizophrenia. PCP (phencyclidine) has been shown to be capable of inducing a schizophreniform psychosis consisting of both productive and defict symptomatology. PCP induced psychosis, therefore, may provide a useful model of schizophrenia. This paper reviews the literature concerning the PCP model of schizophrenia and provides some independent confirmation of the ability of PCP to modulate mesocortical dopaminergic activity. Since PCP appears to mediate its CNS effects via a subclass of glutamate receptors, a possible glutamate theory of schizophrenia is proposed.
...
PMID:Negative schizophrenic symptomatology and the PCP (phencyclidine) model of schizophrenia. 282 Aug 54

Using Sokoloff's 2-deoxyglucose (2-DG) autoradiographic technique, the psychotomimetic drug, phencyclidine (PCP, "angel dust") dramatically increased metabolism in diencephalic and telencephalic brain regions known to be rich in high affinity PCP receptors. These effects were greatest in the limbic circuit described in 1937 by the neurologist James Papez (mammillary bodies, anterior thalamus, cingulate gyrus, entorhinal cortex, hippocampus, fornix) and the terminal zones of dopaminergic projections. Caudal to the prefrontal cortex, the cerebral cortex developed an anterior-posterior metabolic gradient somewhat similar to that reported in schizophrenia. Brainstem areas were generally unaffected. These data 1) provide functional data to support Papez' assertion that his central limbic circuit may be important in emotional expression, 2) reaffirm the potential importance of dopaminergic function in psychotic-like behaviors, 3) provide an animal model for schizophrenia, and 4) establish that PCP uses high affinity PCP receptor binding sites to express its psychobiological effects.
...
PMID:Dramatic limbic and cortical effects mediated by high affinity PCP receptors. 284 May 40

1 2 3 4 5 6 7 8 9 10 Next >>