UNIPROT:P80404 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P80404 (GABA transaminase)
786 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The C57BL/10 SPS/sps mouse mutant are audiogenic seizure-susceptible. The enzymatic activities of glutamate decarboxylase (GAD), GABA aminotransferase (GABA-T), alanine aminotransferase (ALA-T), aspartate aminotransferase (ASP-T), and glutamate dehydrogenase (GDH) of whole brain supernatant are significantly reduced in these epileptic mice. GABA uptake is decreased in cortex, midbrain, and pons medulla. Previous studies showed the presence of two sodium-dependent GLU uptake systems in normal (SPS/SP) mice. Glutamate Umax by System 1 is significantly decreased in these mice, whereas the Umax value for System 2 is significantly increased in the epileptic mice.
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PMID:Altered GABAergic and glutamatergic transmission in audiogenic seizure-susceptible mice. 788 3

1. The GABA transaminase inhibitor and activator of glutamic acid decarboxylase, valproic acid is being used for the treatment of migraine. Its mechanism of action is unknown. We tested the effects of sodium valproate and GABAA-agonist muscimol on dural plasma protein ([125I]-bovine serum albumin) extravasation evoked by either unilateral trigeminal ganglion stimulation (0.6 mA, 5 ms, 5 Hz, 5 min) or substance P (SP) administration (1 nmol kg-1,i.v.) in anaesthetized Sprague-Dawley rats. 2. Intraperitoneal (i.p.) injection of sodium valproate or muscimol, but not baclofen (< or = 10 mg kg-1, i.p.) dose-dependently reduced dural plasma protein extravasation caused either by electrical trigeminal stimulation (ED50: 6.6 +/- 1.4 mg kg-1, i.p., and 58 +/- 18 micrograms kg-1, i.p. for valproate or muscimol, respectively) or by intravenous substance P administration (ED50: 3.2 +/- 1.4 mg kg-1, i.p. and 385 +/- 190 micrograms kg-1, i.p. for valproate or muscimol, respectively). 3. Valproate (6.6 mg kg-1, i.p.) or muscimol (58 micrograms kg-1, i.p.) had no effect on mean arterial blood pressure or heart rate when measured for 30 min after i.p. administration. 4. The GABAA-antagonist bicuculline (0.01 mg kg-1, i.p.) completely reversed the effect of valproate and muscimol on plasma extravasation following electrical stimulation or substance P administration, whereas the GABAB-receptor antagonist, phaclofen (0.01-1 mg kg-1, i.p.) did not. Bicuculline or phaclofen, given alone, did not alter the plasma extravasation response after either electrical stimulation or SP administration. 5. Valproate decreased plasma extravasation following substance P administration in adult animals, neonatally treated with capsaicin by a bicuculline-reversible mechanism. This suggests that GABAA receptors are not found primarily on those afferent neurones or fibres which are sensitive to capsaicin treatment in neonatal rats.6. We conclude that sodium valproate blocks plasma extravasation in the meninges through GABAA mediated postjunctional receptors probably within the meninges. The dosages required are comparable to those used clinically. Agonists and modulators at the GABAA receptor may become useful for the development of selective therapeutic agents for migraine and cluster headache.
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PMID:Peripheral GABAA receptor-mediated effects of sodium valproate on dural plasma protein extravasation to substance P and trigeminal stimulation. 856 34

Nearly three-fourths of all newly diagnosed cases of epilepsy are easily controlled with our current drug armamentarium. Further progress will undoubtedly come with use of three new drugs, gabapentin, lamotrigine, and vigabatrin now in diverse stages of clinical trials. Gabapentin is a gamma-aminobutyric acid (GABA) analog which passes the blood-brain barrier. Its mode of action is unknown. The anti-convultion effect of lamotrigine apparently results from its capacity to stabilize voltage-dependent sodium channels and thus limit release of the excitory neuromediator glutamate. Vigabatrin produces irreversible inhibition of GABA transaminase, increasing the concentration of this neurotransmittor inhibitor in the brain. The pharmacokinetic properties of these three anti-epileptics are more favorable than those of earlier drugs. Renal excretion is proportional to creatinine clearance allowing better dose adjustment and all three can be associated with oral contraception. They are as effective as the classical agents although indications may vary. There are fewer adverse effects and no teratogenic effect has been observed in animal studies. Clinical surveillance is usually sufficient without laboratory tests. One handicap is the increased cost although it has been demonstrated that the overall cost for the society for a patient with well controlled epilepsy is less. The prescription of a third-generation anti-epileptic drug is justified immediately whenever treatment with one of the classical drugs has been unsuccessful; however, in case of failure the new drug should not be continued.
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PMID:[New medical treatment of epilepsy]. 868 6

Depending on their mechanism of action, anticonvulsant drugs in clinical use may be divided into three groups: those drugs which facilitate gamma-aminobutryic acid (GABA)ergic neurotransmission; those which block neuronal ion channels; and those whose mechanism of action is unresolved. The compounds acting on GABAergic systems may be further subdivided into those which modulate transmission through chloride channels, e.g. the barbiturates and the benzodiazepines; those compounds, in particular vigabatrin, which reduce the degradation of GABA by blocking GABA transaminase; and those which inhibit the re-uptake of GABA into the presynaptic terminal. The other group of compounds whose mechanism of action is known are those which block neuronal ion channels. Blockage of voltage-operated sodium channels by lamotrigine, phenytoin or carbamazepine leads to decreased electrical activity and, probably, a subsequent reduction in glutamate release. Conversely, ethosuximide, blocks voltage-operated calcium channels, especially those which mediate calcium currents in thalamic neurones. Of those drugs in which the mechanism of action is unknown, sodium valproate is the prime example. An antagonistic action at the N-methyl-D-aspartate (NMDA) subtype of glutamate receptor might also be a possibility, which could be the case with some of the newer compounds currently undergoing evaluation.
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PMID:Mechanisms of action of antiepileptic drugs. 871 18

Established antiepileptic drugs (AEDs) decrease membrane excitability by interacting with neurotransmitter receptors or ion channels. AEDs developed before 1980 appear to act on sodium channels, gamma-aminobutyric acid type A (GABAA) receptors, or calcium channels. Benzodiazepines and barbiturates enhance GABAA receptor-mediated inhibition. Phenytoin (PHT), carbamazepine (CBZ), and possibly valproate (VPA) decrease high-frequency repetitive firing of action potentials by enhancing sodium-channel inactivation. Ethosuximide (ESM) and VPA reduce a low threshold (T-type) calcium-channel current. The mechanisms of action of the new AEDs are not fully established. Gabapentin (GBP) binds to a high-affinity site on neuronal membranes in a restricted regional distribution of the central nervous system. This binding site may be related to a possible active transport process of GBP into neurons; however, this has not been proven, and the mechanism of action of GBP remains uncertain. Lamotrigine (LTG) decreases sustained high-frequency repetitive firing of voltage-dependent sodium action potentials that may result in a preferential decreased release of presynaptic glutamate. The mechanism of action of oxcarbazepine (OCBZ) is not known; however, its similarity in structure and clinical efficacy to CBZ suggests that its mechanism of action may involve inhibition of sustained high-frequency repetitive firing of voltage-dependent sodium action potentials. Vigabatrin (VGB) irreversibly inhibits GABA transaminase, the enzyme that degrades GABA, thereby producing greater available pools of presynaptic GABA for release in central synapses. Increased activity of GABA at postsynaptic receptors may underline the clinical efficacy of VGB.
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PMID:Antiepileptic drug mechanisms of action. 878 10

The mechanism of inactivation of the pyridoxal 5'-phosphate (PLP)-dependent enzyme gamma-aminobutyric acid (GABA) aminotransferase by 3-amino-4-fluorobutanoic acid (2) has been investigated. As in the case of the homologue, 4-amino-5-fluoropentanoic acid (1), 2 equiv of radiolabeled inactivator become covalently attached to the enzyme, and no transamination, as determined by the lack of conversion of [1-14C] alpha-ketoglutarate into [1-14C] glutamate during inactivation, was observed. In the case of 1, the conclusion was that inactivation was completely the result of modification of the coenzyme and that there was no metabolic turnover; every enzyme molecule catalysed the conversion of one molecule of inactivator to the activated species, which inactivated the enzyme by an enamine mechanism. With 2, however, 6.7 +/- 0.7 equiv of fluoride ions were released during inactivation, and it took 7.6 +/- 0.7 inactivator molecules to inactivate each enzyme dimer. Since no transamination was occurring, another metabolic event besides inactivation must result from the PLP form of the enzyme. Inactivation of GABA amino-transferase with [1,2-14C]-2 produced [14C] acetoacetic acid (about 5.5 equiv) as the metabolite. The 1.93 +/- 0.25 equiv of radioactivity covalently bound to the enzyme after inactivation with [1,2-14C]-2 and gel filtration were completely released by base treatment. HPLC analysis showed that three radioactive compounds, identified as 2, the product of reaction of PLP with acetone (3), and the product of reaction of PLP with acetoacetate (4), were detected. The release of 3 and 4 and the prevention of release of radioactivity by treatment with sodium borohydride are consistent with the formation of covalent intermediates that have beta-carbonyl-like character, such as 6 and/or 7 (Scheme 2). Inactivation of [3H] PLP-reconstituted GABA aminotransferase with 2 followed by gel filtration then base denaturation released all of the radioactivity as a mixture of PLP, 3, and 4. Inactivation with [1,2-14C]-2 resulted in the release of 1.37 equiv of 14CO2, which was shown to be the result of decarboxylation of the acetoacetate/4 after release from the enzyme. These results are not consistent with a Michael addition mechanism (Scheme 3), but are consistent with inactivation by an enamine mechanism; release of the enamine five out of seven turnovers accounts for the formation of acetoacetate as the metabolite. To account for the detection of PLP and 2 after denaturation, it is suggested that a nonproductive formation of the Schiff base of PLP with 2 occurs in the second subunit of the enzyme; this complex is released and hydrolysed to PLP and 2 upon base denaturation.
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PMID:Mechanism-based inactivation of gamma-aminobutyric acid aminotransferase by 3-amino-4-fluorobutanoic acid. 889 9

To elucidate the involvement of peripheral gamma- aminobutyric acid (GABA) and some GABA-mimetic agents in different models of gastric and duodenal ulcerations in rats and guinea pigs, effects of GABA, baclofen (GABAB agonist), diazepam, gamma-butyrolactone (GABA receptor agonist), sodium valproate, isoniazid (GABA-T inhibitor) and glycine (an inhibitory neurotransmitter), given po or ip were studied. All the drugs significantly reduced the ulcer index, incidence and number of ulcer in various models of gastric ulcers except glycine which failed to protect in reserpine-induced ulcers in rats. None of the drugs, except diazepam, had any protective effect on histamine-induced gastric ulcers in guinea pigs. Similarly, no protection was observed by any drug against cysteamine-induced duodenal ulcers in rats, while sodium valproate, isoniazid and glycine significantly decreased number of ulcers against histamine-induced duodenal ulcer in guinea pigs. The results suggest that GABA and GABA-mimetic agents, and glycine, an inhibitory neurotransmitter, afforded protection against some experimental models of peptic ulcer in rats. The effects appear to be due to their inhibitory effect on mucosal defensive factors.
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PMID:Anti-ulcerogenic activity of GABA and GABA mimetic agents in rats. 897 79

Ambulatory activity of male rats was quantified in an open field. The subjects were treated with DL-amphetamine and amfonelic acid alone or combined with the GABA transaminase inhibitors gamma-acetylen GABA (GAG) and sodium valproate as well as with the GABAA agonist THIP and the GABAB agonist baclofen. Subeffective doses of the GABAergic drugs did not modify the effects of moderate doses of the dopaminergic stimulants whereas effective doses continued to reduce ambulatory activity just as in the absence of dopaminergic activation. When DL-amphetamine or amfonelic acid were administered in doses that strongly enhanced ambulatory activity, doses of the GABAergic drugs that were inhibitory in the absence of dopaminergic stimulation were no longer effective. The mixed D1/D2 dopamine antagonist pimozide, the D1 antagonist SCH 23390 and the D2 antagonist sulpiride were then combined with subeffective doses of the GABA agonists. GAG, sodium valproate and baclofen were potentiated by pimozide and SCH 23390 but not by sulpiride. THIP was ineffective. These data show that GABAergic drugs had a reduced effect after stimulation of dopaminergic neurotransmission. On the other hand, when dopamine D1 receptors were blocked, nonselective GABA agonists and the GABAB agonist baclofen were potentiated. This was not the case for the GABAA agonist THIP, suggesting that the GABAA receptor is of slight importance for the interactions between GABA and dopamine in the control of ambulatory activity. No potentiation of GABAergic agonists was obtained after treatment with a dopamine D2 antagonist.
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PMID:Interactions between dopamine and GABA in the control of ambulatory activity. 901 86

Great progress has been made in the development of antiepileptic drugs (AEDs) from their early empirical stage until the current scientifically-founded advancement based on our greater understanding of the genesis of epilepsy. Available AEDs decrease neuronal membrane excitability, acting on ion channels or synaptic receptors. The classic AEDs act on sodium channels (phenytoin and carbamazepine); increase GABA-A receptor-mediated inhibition (benzodiazepines and barbiturates); and on T-type Ca2+ channels (sodium valproate and ethosuximide). Many patients are resistant to these AEDs. The introduction of new drugs whose mechanisms of action are not well established has improved therapeutic prospects. Four promising new AEDs are now available in many countries. Vigabatrin is an irreversible inhibitor of GABA transaminase. Lamotrigine blocks Na+ channels, thereby inhibiting the presynaptic release of excitatory neurotransmitters. Gabapentin increases GABAergic inhibition and Felbamate acts on the NMDA receptor and Na+ channels. New techniques in molecular biology are likely to facilitate the design of better AEDs.
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PMID:[Antiepileptic drugs: mechanism of action]. 905 61

Drugs facilitating GABAergic neurotransmission have been reported to block some behavioral actions of dopaminergic stimulation but not others. The present experiments were performed with the purpose to extend the range of behaviors in which the interaction between GABA and dopamine have been studied. The ability of the GABAB agonist baclofen and the GABA transaminase inhibitor sodium valproate to block the enhanced distractibility produced by amphetamine was evaluated in a procedure especially designed for analyzing drugs' effects on distractibility. Briefly, rats were trained to traverse a straight runway with a sucrose solution as reinforcement. Once the response had been acquired, an additional runway ending in an empty box was connected. The time spent investigating this additional runway is the measure of distractibility. Male rats treated with amphetamine, 1 mg/kg, displayed an increase of the time spent in the additional runway. Baclofen, 2.5 and 5 mg/kg, and sodium valproate, 100 and 200 mg/kg, had no effect on distraction behavior when administered alone. However, when these drugs were administered together with amphetamine, 1 mg/kg, they completely inhibited the effects of the stimulant on distractibility. These data show that distractibility is similar to discrimination learning with regard to the capacity of GABAergic drugs to block the effects of dopaminergic stimulation. It is different from locomotor activity, however, where GABAergic drugs are ineffective in this respect.
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PMID:GABAergic drugs inhibit amphetamine-induced distractibility in the rat. 926 79

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