UNIPROT:P80404 - FACTA Search

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Query: UNIPROT:P80404 (GABA transaminase)
786 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Bacillus cereus strain K-22 produced two distinct omega-amino acid transaminases, one catalyzing the transamination between beta-alanine and pyruvic acid and the other that between gamma-aminobutyric acid and alpha-ketoglutaric aic. The two enzymes were partially purified and separated from each other by various chromatographies. beta-Alanine:pyruvic acid transaminase and gamma-aminobutyric acid:alpha-ketoglutaric acid transaminase were induced by the addition of beta-alanine and gamma-aminobutyric acid, respectively, to the growth medium. beta-Alanine transaminase showed an optimum pH of 10.0 and optimum temperature of 35 degrees C, and its Km values for beta-alanine and pyruvic acid were both 1.1 mM. gamma-Aminobutyric acid, epsilon-aminocaproic acid, 2-aminoethylphosphonic acid, and propylamine showed about 30-40% of the activity of beta-alanine as amino donors, and oxalacetic acid was as good an amino acceptor as pyruvic acid. The optimum pH and temperature of gamma-aminobutyric acid transaminase were 9.0 and 50 degrees C, respectively, and its Km value for gamma-aminobutyric acid was 2.8 mM, while that for alpha-ketoglutaric acid was 2.3 mM. gamma-Aminobutyric acid and delta-aminovaleric acid were good amino donors but other omega-amino acids were virtually inactive with gamma-aminobutyric acid transaminase; alpha-ketoglutaric acid, and to a lesser extent glyoxylic acid, were active amino acceptors. Sulfhydryl reagents specifically activated gamma-aminobutyric acid transaminase.
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PMID:Two omega-amino acid transaminases from Bacillus cereus. 1 32

Kojic amine (KA; 2-aminomethyl-5-hydroxy-4H-pyran-4-one), a compound which shares some structural features with gamma-aminobutyric acid (GABA) and muscimol, has been examined in a variety of test systems for GABAmimetic activity. In several in vitro central nervous system receptor binding assays employing rat brain membrane preparations, KA exhibited selective activity to displace 3H-muscimol but with a relatively high IC50 of 4.4 muM. KA did not alter the binding of 3H-diazepam. Iontophoretically applied KA exerted a pronounced (comparable to GABA on the basis of ejection currents)i inhibition of the firing of cerebellar Purkinje cells and spontaneously active or glutamate-activated neurons in the cerebral cortex. The inhibitory effects of KA, which were longer lasting than those of GABA, were antagonized by bicuculline and enhanced in the presence of 2,4-diaminobutyric acid. On the isolated amphibian (Bufo marinus) spinal cord, KA was less than 1/3 as potent as GABA in depolarizing primary afferent terminals. In this preparation KA caused a marked decrease in the dorsal and ventral root potentials evoked by electrical stimulation of an adjacent or corresponding dorsal root. KA is a poor substrate for GABA uptake systems into rat brain synaptosomes, has no effect on GABA release in vitro, and does not inhibit GABA transaminase activity. Altogether, these data suggest that KA does have some GABAmimetic actions (which are perhaps restricted to hyperpolarizing post-synaptic GABA receptors) but also exerts other pharmacological effects as well.
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PMID:The neuropharmacology of a novel gamma-aminobutyric acid analog, kojic amine. 11 13

Stereotaxic injection of kainic acid into rat striatum produces neuronal degeneration and neurochemical alterations resembling Huntington's disease (HD). Since correction of the deficiency in gamma-aminobutyric acid (GABA) in HD may be of therapeutic value, the efficacy of drugs that inhibit the GABA-degrading enzyme (GABA-T) in elevating the levels of GABA has been examined in the animal model for HD. High doses of di-N-propylacetic acid only partially correct the GABA deficiency in the striatum, whereas low doses of gamma-acetylenic GABA, a specific irreversible inhibitor of GABA-T, completely restore the levels of GABA in striatum and substantia nigra.
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PMID:Inhibitors of GABA metabolism: implications for Huntington's disease. 15

The uptake of the inhibitory transmitter substance gamma-aminobutyric acid (GABA) into the adult rat pineal gland was studied autoradiographically using both light and electron microscopy. The sites of GABA uptake were shown to be exclusively present in the gliocyte cells of the gland following both in vitro incubation with tritiated GABA and after in vivo administration of the amino acid by intra-arterial injection. Both the pinealocyte cells and the numerous sympathetic axons in the gland were devoid of silver grains. Preliminary biochemical studies indicated that the gliocyte uptake process for GABA resembles that in the satellite glia of the sensory ganglia but differed from that in slices of the cerebral cortex. Evidence is also presented which shows the pineal gland to contain endogenous GABA and the enzymes directly associated with its in vivo metabolism, L-glutamate-1-carboxylase (EC 4.1.1.15) (GAD) and GABA-2-oxoglutarate aminotransferase (EC 2.6.1.19) (GABA-T). Furthermore, a 3-fold rise in endogenous GABA occurred in the pineal after inhibition of GABA-catabolism as would be expected if the GABA-shunt pathway was functionally active in the oxidative metabolism of the pineal gland.
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PMID:On GABA metabolism in the gliocyte cells of the rat pineal gland. 23 81

4-Aminobutyrate transaminase (GABA-T, 4-aminobutyrate alpha-oxoglutrate aminotransferase, EC 2.6.1.19) is an enzyme that inactivates the inhibitory neurotransmitter, GABA, but its pharmacological function is uncertain. Two forms of guiena pig brain GABA-T were isolated by DEAE-cellulose chromatography and designated as GABA-T-I and II, corresponding to an anionic and a cationic form. The enzymes were inhibited by high concentrations of a cationic form. The enzymes were inhibited by high concentrations of alpha-oxoglutrate (alpha-KG). Kinetic consists for GABA, when determined at pH 7.9 adn 1 mmol/l alpha-KG, were 0.74 mmol/l. GABA-T activity was inhibited by chloride and other anions. Kinetic analysis revealed chloride ion as a conpetitive inhibitor against GABA, but the Ki values differed among GABA-T-I and II (Ki equals 120 and 60 mmol/l, respectively). Similar degrees of difference were observed with acetate and lactate ion. These results suggest that GABA-T-II may regulate the GABA level in the inhibitory neurons and may play a similar functional role as that exhibited by monoamine oxidase in other synapses.
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PMID:Two forms of 4-aminobutyrate transaminase in guinea pig brain. 23 77

Diazepam-induced GH secretion was tested on 28 male volunteers before and after a 3-day treatment with methysergide, pimozide, or sodium valproate. Serum GH, diazepam, and blood glucose levels were determined. Without prior medication, the mean serum GH level increased 336% 1 h after diazepam administration. Treatment with the serotonin antagonist, methysergide, had no effect on the diazepam-stimulated GH secretion, whereas pimozide, the selective dopamine receptor-blocking agent, reduced the GH response to diazepam by 50% (P less than 0.05). Sodium valproate, a gamma-aminobutyric acid transaminase inhibitor, also inhibited diazepam-induced GH secretion; stimulated GH levels were 51% at 30 min (P less than 0.025), 39% at 60 min (P less than 0.025), and 46% at 90 min (P less than 0.025) relative to the stimulated levels without medication. No difference was found in blood glucose or serum diazepam levels after the drug treatments relative to the values obtained under basal conditions. It is suggested that diazepam-induced GH secretion is at least partly mediated via dopaminergic mechanisms. Serotonin does not seem to be involved. It is further proposed that gamma-aminobutyric acid plays an inhibitory role in GH secretion.
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PMID:The effect of methysergide, pimozide, and sodium valproate on the diazepam-stimulated growth hormone secretion in man. 37 Jan 37

Gabaculine (5-amino-1,3-cyclohexadienylcarboxylic acid), a naturally occurring amino acid isolated from Streptomyces toyacaenis, is an irreversible inhibitor of bacterial pyridoxal phosphate linked gamma-aminobutyric acid-alpha-ketoglutaric acid transaminase with a t 1/2 (25 degrees C) of 9 min at 3 X 10(-7) M. Gabaculine is a substrate for gamma-aminobutyric acid transaminase. The measured KI is 2.86 X 10(-6) M, and the kcat for its turnover is 1.15 X 10(-2) S-1 at 25 degrees C. When gabaculine is transaminated by the enzyme, it is converted to a cyclohexatrienyl system with one exo double bond. Upon spontaneous aromatization, this high energy intermediate is transformed into a stable m-anthranilic acid derivative (m-carboxyphenylpyridoxamine phosphate), which results in the covalent and irreversible modification of the cofactor. This adduct is bound tightly to the active site of the enzyme and can be liberated under denaturing conditions.
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PMID:Mechanism of the irreversible inhibition of gamma-aminobutyric acid-alpha-ketoglutaric acid transaminase by the neutrotoxin gabaculine. 41 Apr 42

Specific activity of glutamate decarboxylase was decreased in subfractions of light and heavy synaptosomes, and gamma-aminobutyric acid (GABA) transaminase activity--also in subfractions of free mitochondria, isolated from visual zone of brain cortex and of anterior mesencephalon but not from locomotive region of brain cortex of the light-deprived rabbits. Decrease in the ratio GABA transaminase/glutamate decarboxylase indicated distinct inhibition of GABA degradation as compared with its synthesis due to absence of sensory impulsation within the early periods of postnatal ontogenesis of the animals.
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PMID:[Effect of light deprivation on GABA metabolism in subcellular fractions of the rabbit visual system]. 47 89

gamma-Acetylenic gamma-aminobutyric acid (GAG), an irreversible inhibitor of GABA transaminase, increased the concentration of GABA in feline spinal cords to 239% of the control value by 225 min after its injection. After administration of GAG to spinally transected cats, the height of the segmentally evoked dorsal root potential (DRP), which is generated at one point via a GABA synapse, was increased to more than twice the control value although the area increased only slightly. However, GAG had no effect on the segmental DRP in the decerebrate cat. In contrast, the DRP evoked in decerebrate cats by electrical stimulation of the brain stem, which is probably mediated by GABA, was decreased by administration of GAG. These effects of GAG were accompanied by the development of spontaneous primary afferent depolarizations which resembled spontaneous DRPs in both spinal and decerebrate cats. The temporal and size correlation between spontaneous DRPs occurring in different spinal roots indicate they are generated by an interneuronal pathway that is released by the action of GAG. The action of GAG on the segmental DRP in the spinal but not decerebrate preparation is also most easily explained by GAG-induced effects on interneuronal pathways. These data suggest GABA transaminase inhibition does not affect the axoaxonic GABA synapse mediating the DRP.
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PMID:Changes in primary afferent depolarization after administration of gamma-acetylenic gamma aminobutyric acid (GAG), a gamma-aminobutyric acid (GABA) transaminase inhibitor. 50 64

The effects of administration of DL-penicillamine (PeA), thiosemicarbazide (TSC), semicarbazide-HCl (SC) as convulsants and pyridoxine (PN) as anticonvulsant on gamma-aminobutyric acid (GABA) content, glutamic acid decarboxylase (GAD) and gamma-aminobutyric acid transaminase (GABA-T) activities in cerebral cortex, striatum, diencephalon, mesencephalon, cerebellum and pons/medulla were investigated. The onset of convulsions induced by these convulsants coincides with the fall in GABA content and GAD activity in the mesencephalon area, and in contrast, the cessation of the convulsions by PN supplement coincides with the recovery in both the parameters. Aminooxyacetic acid (AOAA), a potent GABA-elevating agent showed an anticonvulsant property against convulsion by TSC for several hours after the injection of AOAA, but lost this property 16 hr after the treatment. The TSC administration 16 hr after the AOAA pretreatment significantly decreased the GABA content in all the regions, particularly in the mesencephalon and diencephalon areas, which had been elevated by the AOAA pretreatment, together with its ability to induce convulsion. FRom the above results it may be postulated that the critical drop of GABA level from a plateau to another lower level following the decrease of GAD activity in the mesencephalon area is an important factor in the induction of convulsion.
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PMID:Effect of antivitamin B6 on regional GABA metabolism in mouse brain and its relation to convulsions. 54 51

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