EC:2.6.1.19 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.6.1.19 (GABA transaminase)
808 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Pyritinol, a vitamin B6 derivative considered to have an activating effect on brain inhibited glutamate decarboxylase in concentrations of 0.05-1.0 mmol/l. This effect was not dependent on the pyridoxal-5'-phosphate concentration. An increase in the glutamate level reduced the inhibitory effect of pyritinol, but inhibition was not competitive. It is supposed that this modification of inhibition of glutamate decarboxylase by the substrate concentration might be associated with the presence of two glutamate decarboxylases with different affinities for the substrate. The inhibitory effect of pyritinol was dependent on integrity of the disulphide bond in the pyritinol molecule. Inhibition of glutamate decarboxylase increased in correlation to time--possibly in association with progressive oxidation of the SH-groups of the enzyme. Pyritinol did not influence GABA transaminase activity, but lessened the oxidation of GABA to carbon dioxide. It is assumed that succinic semialdehyde dehydrogenase activity was inhibited.
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PMID:Pyritinol and the enzymes of gamma-aminobutyric acid (GABA) synthesis and degradation. 297 3

It was found that naloxone causes a small but significant reduction of motility. The GABAB agonist baclofen and the GABA transaminase inhibitor gamma-acetylenic GABA (GAG) also reduced locomotor activity. When a subeffective dose of baclofen was combined with naloxone 0.8 or 3.2 mg/kg, baclofen significantly inhibited motility beyond the inhibition caused by naloxone + saline. GAG, in a dose of 12.5 mg/kg, was also potentiated by naloxone, 3.2 mg/kg. The locomotion reducing effects of naloxone could be blocked by either picrotoxin or bicuculline. It is concluded that GABAergic mechanisms participate in the inhibition of locomotor activity provoked by naloxone. The possibility that this drug disinhibits GABAergic neurons is discussed.
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PMID:Interactions between naloxone and GABA in the control of locomotor activity in the rat. 298 44

The GABAA agonists 3-amino-1-propanesulfonic acid and THIP reduced sexual behaviour in male rats only at relatively high doses, whereas baclofen produced an almost complete inhibition at a low dose (2.5 mg/kg). The GABA transaminase inhibitor aminooxyacetic acid had no effects, while gamma-acetylenic GABA produced a slight inhibition of sexual behaviour. The GABAA antagonist bicuculline had no effect. When THIP was administered concurrently with bicuculline, the former drug was potentiated. Therefore it is concluded that the GABAA receptor is not responsible for the inhibitory actions of THIP, and since baclofen was the most potent drug with regard to effects on sexual behaviour, it is suggested that the GABAB rather than the GABAA receptor is involved in the control of that behaviour. The slight effects of the transaminase inhibitors and the lack of effect of bicuculline suggest that the GABAergic neurons participating in the control of sexual activity are not tonically active. Finally, data are presented showing that the effects of GABAergic drugs on sexual behaviour are probably independent from those on locomotor activity.
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PMID:GABAergic drugs and sexual behaviour in the male rat. 299 Sep 71

The locomotion-reducing effect of the GABAB agonist baclofen was compared with that of the GABAA agonists, aminopropanesulfonic acid (APSA) and THIP. It was found that baclofen was more potent than the other drugs. After intraventricular injection, baclofen induced almost complete immobility, whereas APSA did not affect locomotor activity. THIP had an intermediate effect. The GABA transaminase inhibitor gamma-acetylenic GABA (GAG) provoked a dose-dependent reduction of locomotion. Neither the effects of THIP nor those of GAG could be blocked by concurrent administration of bicuculline. The antagonist itself did not affect locomotor activity. It is concluded that the GABAA receptor is not important for the locomotion-reducing effects of GABAergic drugs.
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PMID:The locomotor-reducing effects of GABAergic drugs do not depend on the GABAA receptor. 299 28

Slice preparations of rat cuneate nucleus were used for studies on the gamma-aminobutyric acid GABAA-receptor complex following chronic and acute pretreatment with GABA-alpha-ketoglutarate aminotransferase (GABA-T) inhibitors. The whole brain GABA concentration was significantly increased 2.9 fold and 2.6 fold following treatment with ethanolamine O-sulphate (EOS, orally) for 15-30 days and 56-64 days, respectively. One hour after a single injection of gamma-acetylenic GABA (GAG) i.p., there was a significant 2.1 fold increase in whole brain GABA. Superfusion of a slice with muscimol or the GABA uptake inhibitor nipecotic acid depolarized the afferent nerve fibres. These effects were potentiated by flurazepam (1 microM) and pentobarbitone (10 microM) and antagonized by picrotoxin (3 microM, 30 microM). Following 15-30 days of EOS-treatment, the depolarization response to muscimol was decreased and that to nipecotic acid increased. These changes were no longer significant by 56-64 days of pretreatment. The acute dose of GAG did not affect the depolarization response to muscimol but increased that to nipecotic acid. The potentiations of muscimol by flurazepam (1 microM) and pentobarbitone (10 microM) were enhanced following chronic EOS treatment (15-64 days). The enhancement of flurazepam was less after 56-64 days than after 15-30 days pretreatment whereas the enhancement of pentobarbitone was similar at both times. Acute GAG treatment had no effect. The potency of picrotoxin as an antagonist of muscimol was reduced following chronic EOS treatment; the enhancement was less after 56-64 days than after 15-30 days pretreatment. Acute GAG treatment caused only a very small reduction in picrotoxin potency. Possible adaptations in the GABAA-receptor complex and its modulation during chronic elevation of brain GABA are discussed.
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PMID:Adaptation of the GABAA-receptor complex in rat brain during chronic elevation of GABA by ethanolamine O-sulphate. 303 47

Glutamic acid diethyl ester (GDEE) is a glutamate antagonist which acts preferentially at the quisqualate-sensitive receptor and has been shown to be an effective anticonvulsant in alcohol withdrawal and homocysteine-induced seizures but ineffective in other seizure models. To better characterize the role of the quisqualate-sensitive receptor in the generation of seizures, quisqualate was administered to mice by intracerebroventricular (ICV) route and immediate onset generalized seizures were observed. The anticonvulsant properties of GDEE and commonly used antiepileptic drugs (AEDs) were investigated with this seizure model. GDEE given by intraperitoneal blocked quisqualate-induced seizures dose-dependently. Diphenyl-hydantoin (50 mg/kg IP), carbamazepine (50 mg/kg IP), diazepam (1; 4 mg/kg IP), phenobarbital (40; 80 mg/kg IP), and valproic acid (250; 340 mg/kg IP) were also administered prior to quisqualate-seizure induction. Only valproic acid blocked seizures at nonsedating doses. The GABA transaminase inhibitor aminooxyacetic acid (20 mg/kg IP) was ineffective, suggesting that here valproic acid is active at excitatory receptors rather than by potentiating GABA post-synaptic inhibition. These data are consistent with the hypothesis that the quisqualate-sensitive receptor is involved in some forms of clinically observed seizures, particularly those which are controlled by valproic acid.
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PMID:Inhibition of quisqualate-induced seizures by glutamic acid diethyl ester and anti-epileptic drugs. 310 Jul 18

The effects of zopiclone, a non-benzodiazepine compound that interacts with benzodiazepine receptors, on GABA turnover rate and GABA content in the rat striatum and hippocampus have been studied. Intraperitoneal administration of zopiclone reduced the GABA turnover rates in both the striatum and hippocampus, as estimated from the rate of GABA accumulation after inhibition of GABA transaminase by aminooxyacetic acid (AOAA). The effect of zopiclone on AOAA-induced accumulation of GABA in the hippocampus and striatum was blocked by the intraperitoneal injection of the benzodiazepine receptor antagonist Ro 15-3505. Furthermore, zopiclone slightly but significantly decreased GABA content in the hippocampus, the decrease being blocked by coadministration of the benzodiazepine receptor antagonist Ro 15-1788. Our results confirm that the GABAergic system plays a role in the mechanism of action of zopiclone.
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PMID:Modification of GABA turnover in the striatum and hippocampus of the rat after zopiclone. 311 88

Anticonvulsant sodium valproate, an inhibitor of GABA transaminase, which induces GABA accumulation in the brain, has been shown to possess a potent antiarrhythmic effect. In acute ischemia and reperfusion in conscious rats with closed chest, it decreased fourfold total duration of arrhythmias, while in nonanesthetized animals with open chest, it substantially limited the heart electrical fibrillation threshold and reduced fourfold total duration of arrhythmias. In both experimental models, sodium valproate decreased threefold the rate of ischemia-induced heart fibrillations. Clinicophysiological evaluation of the effect of sodium valproate on arrhythmias in coronary patients appears warranted.
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PMID:[Prevention of arrhythmias and cardiac fibrillation in acute ischemia and reperfusion by using a factor causing GABA accumulation in the brain]. 311 16

The GABA transaminase inhibitors gamma-acetylen GABA (GAG) and sodium valproate were administered intraperitoneally and their effects on locomotor activity, motor execution and sexual behavior were analyzed. It was found that sodium valproate, administered 15 min before observation, reduced locomotor activity only at a dose of 200 mg/kg. Doses of 100 and 400 mg/kg had no effect. Motor execution was impaired in a dose-dependent way, the lowest effective dose being 200 mg/kg. Sexual behavior was also dose-dependently reduced. Sodium valproate, administered 60 min before observation, inhibited all behaviors. The lowest effective dose was 200 mg/kg for locomotor activity and 400 mg/kg for motor execution and sexual behavior. GAG also inhibited all behavior, in doses ranging from 25 mg/kg (locomotor activity) to 100 mg/kg (motor execution and sexual behavior). The data showed that there is no relation between effects on locomotor activity and the effects on sexual behavior, whereas sexual behavior is inhibited whenever motor execution is impaired. Moreover, there is no correlation between effects on locomotor activity and motor execution. It is suggested that GABA transaminase inhibitors effect sexual behavior only indirectly, via an impairment of motor execution. Therefore it is doubtful whether GABAergic mechanisms play any role in the normal regulation of sexual behavior.
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PMID:Differential effects of GABA transaminase inhibitors on sexual behavior, locomotor activity, and motor execution in the male rat. 311 62

The role of GABAergic neuronal system in learning and memory was investigated using the step-down typed passive avoidance and rapidly learned conditioned suppression tasks in mice. GABA antagonists, picrotoxin and bicuculline, or a GABA synthesis inhibitor, 3-mercaptopropionic acid (3-MP), were administered just after the training test. All of these drugs caused amnesia: they shortened the step-down latency (SDL) and attenuated the conditioned suppression of motility in the retention test conducted 24 h after the administration. Furthermore, we investigated the effect of GABA receptor agonists, muscimol and baclofen, or a GABA transaminase inhibitor, aminooxyacetic acid (AOAA), on these amnesia models. GABA agonists showed an antiamnesic action as follows: in the passive avoidance task, 1) picrotoxin-induced amnesia was antagonized by muscimol, baclofen and AOAA. 2) Bicuculline-induced amnesia was antagonized by muscimol and AOAA but not by baclofen. 3) 3-MP-induced amnesia was antagonized only by muscimol. 4) In the rapidly learned conditioned suppression task, picrotoxin-, bicuculline- and 3-MP-induced amnesia were antagonized by muscimol, baclofen and AOAA. These results suggest that the GABAergic neuronal system plays an important role in the memory retention of passive avoidance and rapidly learned conditioned suppression tasks.
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PMID:GABAergic modulation of memory with regard to passive avoidance and conditioned suppression task in mice. 312 29

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