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)

Rat brain cortex synaptosomes pre-incubated with [3H]norepinephrine were used (1) to provide evidence that part of the NMDA receptors mediating stimulation of norepinephrine (NE) release are located on the noradrenergic varicosities themselves, (2) to characterize these receptors and (3) to examine whether ethanol specifically inhibits the NMDA-evoked NE release via a presynaptic site of action. In synaptosomes superfused with Mg(2+)-free Krebs-Henseleit solution, NMDA (2-min exposure) stimulated tritium overflow in a concentration- and glycine-dependent manner. The stimulatory effect of NMDA was not altered by tetrodotoxin but was abolished by omission of Ca2+ from the superfusion fluid and was considerably reduced in the presence of 1.2 mM Mg2+. DL-(E)-2-Amino-4-methyl-5-phosphono-3-pentanoic acid (CGP 37849; a competitive NMDA receptor antagonist) produced a parallel shift of the concentration-response curve for NMDA to the right, whereas dizocilpine (MK-801; an antagonist at the phencyclidine, PCP, recognition site of the NMDA-gated ion channel) reduced the maximum effect of NMDA. Ethanol inhibited the NMDA-evoked tritium overflow in a concentration-dependent manner. In contrast, in synaptosomes superfused with Ca(2+)-free Krebs-Henseleit solution containing 15 mM K+ throughout, ethanol did not affect the tritium overflow evoked by 2 min introduction of 75 microM Ca2+ into the superfusion fluid. This Ca(2+)-evoked overflow was also not altered by tetrodotoxin and dizocilpine, but was inhibited by the inorganic Ca2+ channel antagonist Cd2+.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Presynaptic site of action underlying the ethanol-induced inhibition of norepinephrine release evoked by stimulation of N-methyl-D-aspartate (NMDA) receptors in rat cerebral cortex. 135 86

Ethanol has been shown to antagonize N-methyl-D-aspartate (NMDA) receptor-mediated neurotransmission in a number of in vitro systems. Drug discrimination procedures in rats were used to evaluate ethanol as an antagonist of NMDA discrimination and for its ability to produce discriminative stimulus effects similar to those of competitive and noncompetitive NMDA antagonists. Ethanol (300-1500 mg/kg i.p.) failed to antagonize the stimulus effects of 30 mg/kg NMDA, nor did it substitute fully for either the competitive antagonist NPC 12626 nor the noncompetitive antagonist phencyclidine (PCP). A maximum average of 55.4% PCP-lever responding provided evidence for partial substitution in this model. The effects of ethanol on NMDA discrimination are distinct from those previously reported for competitive NMDA antagonists but similar to those of noncompetitive antagonists. On the other hand, ethanol can be distinguished from both competitive and PCP-like noncompetitive NMDA antagonists using drug discrimination procedures.
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PMID:Drug discrimination analysis of ethanol as an N-methyl-D-aspartate receptor antagonist. 146 98

Groups of rats, acclimated to drinking both water and 10% v/v ethanol were implanted with a variety of slow-release devices containing d-amphetamine (d-amp), nicotine, caffeine, phencyclidine (PCP), secobarbital, LSD, mescaline or haloperidol. Ethanol intake was elevated only during treatment with d-amp or nicotine; none of the other drugs affected ethanol consumption even though the amounts of all drugs released were pharmacologically sufficient to affect behavior. Nicotine treated rats were not simply seeking calories provided by the EtOH solution, since nicotine treatment did not enhance intake of a distinctively flavored solution isocaloric to 10% ethanol. These results support a self-medication model of ethanol intake.
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PMID:Ethanol intake increases during continuous administration of amphetamine and nicotine, but not several other drugs. 686 54

We investigated the effect of ethanol on specific binding of [3H]MK-801 to the intrachannel phencyclidine (PCP) receptor site, as an index of change in the functional response of the N-methyl-D-Aspartate (NMDA)-associated ion channel. Saturation binding experiments were performed on synaptic membrane homogenates from adult rat cortex and hippocampus. [3H]MK-801 binding assays were conducted under conditions of basal, 10 microM glutamate, or 10 microM glutamate + 30 microM D-serine, with and without 50 or 100 mM ethanol. Association experiments of [3H]MK-801 binding (5 nM) were conducted under conditions of 0 or 10 microM glutamate, with varying concentrations of glycine (0.01, 0.10, and 10 microM) with and without 100 mM ethanol. Ethanol (50 and 100 mM) significantly decreased the percentage of high-affinity (open-channel state) MK-801 receptors with a concomitant increase in percentage of low-affinity receptors, but did not change high- and low-affinity constants of the two binding states. An ethanol-induced increase in the closed-channel receptor density in basal and activated conditions was suggested by the saturation experiments. Association experiments further explained this finding, in that ethanol (100 mM) significantly decreased fast component (open-channel) [3H]MK-801 binding in conditions of glycine (0.01-10 microM) only and activated conditions of glutamate + glycine (0.01-0.10 microM). However, the observed fast and slow kinetic rate constants of [3h]MK-801 binding, as well as total specific binding (fast + slow components), were not altered.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Alteration of [3H]MK-801 binding associated with the N-methyl-D-Aspartate receptor complex by acute ethanol in rat cortex and hippocampus in vitro. 762 62

The purpose of this experiment was to determine whether attenuation of ethanol consumption by naltrexone is the result of selective changes in the reinforcing effectiveness of drug and non-drug reinforcers. A range of naltrexone doses (0.1-1.0 mg/kg) was administered for 5 days, and the effects on the reinforcing effects of orally delivered 8% (w/v) ethanol, 0.25 mg/ml phencyclidine (PCP), 0.03% (w/v) saccharin and food were studied in eight rhesus monkeys. Food and liquids were available under independent and concurrent progressive-ratio (PR) schedules (ratio range 8-4096) during daily 3-h sessions. Ethanol-maintained responding was attenuated by 0.3 and 1.0 mg/kg doses of naltrexone, while saccharin-maintained responding was decreased at the 1.0 mg/kg dose. Furthermore, there was a significant linear trend that consumption of available ethanol and saccharin was attenuated dose-dependently by naltrexone. Following 5 days of naltrexone pretreatment, ethanol- and saccharin-maintained responding immediately returned to or exceeded baseline levels. Food- and PCP-maintained responding and intake were not significantly affected by any of the naltrexone doses examined. The decreased break point (BP) values for ethanol and saccharin suggest that their reinforcing effects are mediated through opioid reinforcement mechanisms. The lack of naltrexone attenuation of PCP- and food-maintained responding suggests that these reinforcers: 1) are not sensitive to naltrexone antagonism at the doses examined, 2) are mediated by non-opioid reinforcement mechanisms, and/or 3) have less intrinsic palatability.
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PMID:Naltrexone pretreatment decreases the reinforcing effectiveness of ethanol and saccharin but not PCP or food under concurrent progressive-ratio schedules in rhesus monkeys. 1009 Jun 52

Here, I will review accumulating evidence that during the developmental period of synaptogenesis, also known as the brain growth spurt period, neurons are very sensitive to specific disturbances in their synaptic environment. During this period, abnormal increases in NMDA glutamate (Glu) receptor activity triggers excitotoxic neurodegeneration, and abnormal inhibition of neuronal activity (by blockade of NMDA Glu receptors or excessive activation of GABAA receptors) triggers neuronal suicide (apoptosis). Only a transient disturbance, lasting for a few hours, is sufficient to trigger either excitotoxic or apoptotic neurodegeneration during this developmental period. Ethanol, which has both NMDA antagonist and GABAmimetic properties, triggers widespread apoptotic neurodegeneration in the developing rat, mouse or guinea pig brain, and this provides a likely explanation for the reduced brain mass and lifelong neurobehavioral disturbances associated with the human fetal alcohol syndrome (FAS). The brain growth spurt occurs in different species at different times relative to birth. In rats and mice it is a postnatal event, but in humans it extends from the 6th month of gestation to several years after birth. Thus, there is a period in fetal and neonatal human development, lasting for several years, during which immature central nervous system (CNS) neurons are exquisitely sensitive to environmental agents (the specific number and variety of which remains to be established) that can trigger widespread neurodegeneration by inducing specific abnormal changes in the synaptic environment. Agents identified thus far include drugs that may be abused by pregnant mothers (ethanol, phencyclidine (PCP) (angel dust), ketamine (Special K), nitrous oxide (laughing gas), barbiturates, benzodiazepines) and many medicinals used in obstetric and pediatric medicine as sedatives, anti-convulsants or anesthetics (all general anesthetics are either NMDA antagonists or GABAmimetics). Many other chemicals in the human environment remain to be evaluated for their ability to cause developing CNS neurons to commit suicide, and this provides an exciting challenge for the field of developmental neurotoxicology.
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PMID:New insights and new issues in developmental neurotoxicology. 1252 Jul 55

Prolonged consumption of ethanol produces prefrontal cortex (PFC) dysfunction in patients, and this has been demonstrated using structural, physiological and psychological measurements. We therefore wanted to develop an animal model of PFC dysfunction to study whether this state changes sensitivity for ethanol or other behavioural/motivational measures. Adolescent Wistar rats were first screened in the novel object recognition task to establish a pre-treatment baseline measure of locomotor activity, anxiety-like behaviour and PFC function. Animals were divided into four treatment groups [saline, 5 mg/kg phencyclidine (PCP), 2.5g/kg ethanol, ethanol + PCP] and injected i.p. for 5 days followed by a 2-day washout. On the 8th day, animals were allowed to explore a Y-maze for 10 min. and spontaneous alternations were recorded using the ANY-maze tracking system. PCP, a classic drug used to induce PFC dysfunction in animals, did not significantly reduce the % correct alternations relative to the 70% level achieved by the saline group. Ethanol and the combination of Ethanol + PCP, however, significantly reduced alternations to approximately 30%. The combined dose was not additive in terms of Y-maze impairment, and these animals had less total distance travelled and greater time immobile relative to the other groups. We therefore concluded that injection of 2.5 g/kg ethanol for 5 days in Wistar rats produces a more substantial, consistent and valid PFC dysfunction than 5 mg/kg PCP.
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PMID:Repeated ethanol but not phencyclidine impairs spontaneous alternation behaviour in the Y-maze. 2200 16