Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Synaptosomes isolated from mouse brain were incubated with [14C]glutamate and [3H]gamma-amino-butyric acid ([3H]GABA), and then [14C]GABA (newly synthesized GABA) and [3H]GABA (newly captured GABA) in the synaptosomes were analysed. (1) the [3H]GABA was rapidly degraded in the synaptosomes, (2) when the synaptosomes were treated with gabaculine (a potent inhibitor of GABA aminotransferase), the degradation of [3H]GABA was strongly inhibited, (3) the gabaculine treatment brought about a significant increase in Ca2(+)-independent release of [3H]GABA with no effect on Ca2(+)-dependent release, (4) no effects of gabaculine on degradation and release of [14C]GABA were observed. The results indicate that there are at least two pools of GABA in synaptosomes and support the possibilities that GABA taken up into a pool which is under the influence of GABA aminotransferase is released Ca2(+)-independently and that GABA synthesized in another pool which is not under the influence of GABA aminotransferase is released Ca2(+)-dependently.
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PMID:Effect of gabaculine on metabolism and release of gamma-aminobutyric acid in synaptosomes. 197 70

The ventral hippocampi of male, Fischer-344 rats were implanted with microdialysis probes and the effects of systemically administered kainic acid (KA) (8 mg/kg, s.c.) on the in vivo release of amino acids were measured for four hours after administration. In order to measure GABA release in vivo, gamma-vinyl-GABA (GVG), an irreversible inhibitor of GABA transaminase, was injected intrahippocampally prior to perfusion. GVG pretreatment resulted in measurable levels of GABA in the perfusate without significant effects on the release of aspartate, glutamate, glutamine, glycine or taurine. Following GVG pretreatment systemic administration of KA produced a time-dependent increase in GABA, as well as all other amino acids except glutamine, which was initially decreased. These results show for the first time that systemically administered KA increases extracellular GABA levels, an effect previously reported only in vitro. These data suggest that prior to destruction of GABA-containing interneurons in the hippocampus, there is an increased activity of those GABA interneurons reflected as an increase in extracellular GABA levels.
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PMID:Systemic administration of kainic acid increases GABA levels in perfusate from the hippocampus of rats in vivo. 208 85

We have characterized two genes of the Escherichia coli K-12 gab cluster, which encodes the enzymes of the 4-aminobutyrate degradation pathway. The nucleotide sequence of gabT, coding for glutamate:succinic semialdehyde transaminase (EC 2.6.1.19), alternatively known as 4-aminobutyrate transaminase, was determined. The structural gene consists of 1,281 nucleotides specifying a protein of 426 amino acids with a molecular mass of 45.76 kDa. The protein shows significant homologies to the ornithine transaminases from Saccharomyces cerevisiae and from rat and human mitochondria. Three functionally and structurally important amino acid residues of the transaminase were identified by sequence comparison studies, and evolutionary relationships of the aminotransferases are discussed. The gabD gene, encoding succinic semialdehyde dehydrogenase (EC 1.2.1.16), was cloned and shown to be located adjacent to the 5' end of gabT. Expression studies with subfragments of the initially cloned DNA region revealed a maximal size of 1.7 kb for gabD. Both genes are cotranscribed from a promoter located upstream of gabD.
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PMID:Molecular analysis of two genes of the Escherichia coli gab cluster: nucleotide sequence of the glutamate:succinic semialdehyde transaminase gene (gabT) and characterization of the succinic semialdehyde dehydrogenase gene (gabD). 225 72

In astrocytes grown in primary cultures from cerebral cortex of neonatal rats, alpha 1-adrenoceptors regulate the active uptake of glutamate followed by an activation of glutamic oxaloacetate transaminase (GOT; EC 2.6.1.1.) and a slight activation of glutamine synthetase (GS; EC 6.3.1.2.) activity. The beta-adrenoceptors regulate the active uptake of GABA, and this is followed by an activation of gamma-aminobutyric acid alpha-ketoglutarate transaminase (GABA-T; EC 2.6.1.19.). The data suggest that astrocyte adrenoceptors may modulate neurotransmitter induced neuronal excitability.
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PMID:Regulation of glutamate and GABA transport by adrenoceptors in primary astroglial cell cultures. 256 1

The effect of acute and chronic ethanol administration on the level of gamma-aminobutyric acid (GABA), glutamate, aspartate, and glutamine was investigated. The level of GABA rose both after acute and chronic ethanol administration. In chronic experiments also the level of glutamate, aspartate and glutamine were increased. In acute experiments the incorporation from glucose into the studied amino acids (neuronal compartment) increased, while in chronic experiments a decreasing trend was observed. In the glial compartment the incorporation increased only into glutamate and glutamine in acute experiments, while in chronic experiments a decreased incorporation into glutamine was recorded. The activities of three enzymes were studied in seven parts of the brain after acute ethanol administration. The activity of glutamic acid decarboxylase increased in the hypothalamus and brain cortex and decreased in the medulla oblongata. The activity of GABA transaminase did not change and the activity of glutamine synthetase decreased only in the hippocampus. In accordance with several other studies, the presented results show that ethanol interferes with the GABA system in the brain. It is suggested that the primary effect of ethanol is exerted on the cell membranes with preference for the regions connected with the GABA system.
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PMID:[The effect of ethanol on gamma-aminobutyric acid in the brain]. 257 92

The role of GABAergic neurons in the differential sensitivity to ethanol between the AT (Alcohol Tolerant) and ANT (Alcohol Nontolerant) rat lines developed for low and high degree of motor impairment from ethanol, was studied by comparing the effect of ethanol (2 or 4 g/kg, IP) on GABA turnover in different regions of the brain in these rat lines. GABA turnover was estimated from the accumulation of GABA after inhibition of GABA aminotransferase with aminooxyacetic acid (AOAA, 50 mg/kg, IP) given 10 min after administration of ethanol. The rats were killed two hours after the AOAA treatment with focused microwaves. The concentrations of GABA, aspartate, glutamate, glutamine and taurine were analyzed with HPLC. The saline-treated ANT rats were found to have a higher concentration of GABA in the striatum and a higher rate of GABA accumulation in the cerebellum than the AT rats. Ethanol suppressed the accumulation of GABA in both lines, but the suppression was significantly greater in the AT rats than in the ANT rats. In specific regions, this line difference was significant in the cerebral cortex and cerebellum with the higher ethanol dose. No line differences were found in the brain or tail blood ethanol concentration. AOAA increased the concentration of glutamine, decreased that of aspartate and glutamate, and did not modify that of taurine. The AOAA-induced changes in the concentrations of these amino acids were, however, minor relative to those found in the concentrations of GABA. The results that GABAergic mechanisms are involved in the differential sensitivity to the motor-impairing effects of ethanol between the AT and ANT rats.
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PMID:GABA turnover in the brain of rat lines developed for differential ethanol-induced motor impairment. 262 44

The technique of estimating gamma-aminobutyric acid (GABA) turnover by inhibiting its major degrading enzyme GABA-T (4-aminobutyrate:2-oxoglutarate aminotransferase; EC 2.6.1.19) and measuring GABA accumulation has been used repeatedly, but, at least in rats, its usefulness has been limited by several difficulties, including marked differences in the degree of GABA-T inhibition in different brain regions after systemic injection of GABA-T inhibitors. In an attempt to improve this type of approach for measuring GABA turnover, the time course of GABA-T inhibition and accumulation of GABA in 12 regions of rat brain has been studied after systemic administration of aminooxyacetic acid (AOAA), injected at various doses and with different routes of administration. A total and rapidly occurring inhibition of GABA-T in all regions was obtained with intraperitoneal injection of 100 mg/kg AOAA, whereas after lower doses, marked regional differences in the degree of GABA-T inhibition were found, thus leading to underestimation of GABA synthesis rates, e.g., in substantia nigra. The activity of the GABA-synthesizing enzyme GAD (L-glutamate-1-decarboxylase; EC 4.1.1.15) was not reduced significantly at any time after intraperitoneal injection of AOAA, except for a small decrease in olfactory bulbs. Even the highest dose of AOAA tested (100 mg/kg) was not associated with toxicity in rats, but induced motor impairment, which was obviously related to the marked GABA accumulation found with this dose. The increase in GABA concentrations induced with intraperitoneal injection of 100 mg/kg AOAA was rapid in onset, allowing one to estimate GABA turnover rates from the initial rate of GABA accumulation, i.e., during the first 30 min after AOAA injection. GABA turnover rates thus determined were correlated in a highly significant fashion with the GAD activities determined in brain regions, with highest turnover rates measured in substantia nigra, hypothalamus, olfactory bulb, and tectum. Pretreatment of rats with diazepam, 5 mg/kg i.p., 5-30 min prior to AOAA, reduced the AOAA-induced GABA accumulation in all 12 regions examined, most probably as a result of potentiation of postsynaptic GABA function. The data indicate that AOAA is a valuable tool for regional GABA turnover studies in rats, provided the GABA-T inhibitor is administered in sufficiently high doses to obtain complete inhibition of GABA degradation.
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PMID:Use of inhibitors of gamma-aminobutyric acid (GABA) transaminase for the estimation of GABA turnover in various brain regions of rats: a reevaluation of aminooxyacetic acid. 280 89

The effect of different treatments on amino acid levels in neostriatum was studied to throw some light on the synthesis and metabolism of gamma-aminobutyric acid (GABA). Irreversible inhibition of GABA transaminase by microinjection of gamma-vinyl GABA (GVG) led to a decrease in aspartate, glutamate, and glutamine levels and an increase in the GABA level, such that the nitrogen pool remained constant. The results indicate that a large part of brain glutamine is derived from GABA. Hypoglycemia led to an increase in the aspartate level and a decrease in glutamate, glutamine, and GABA levels. The total amino acid pool was decreased compared with amino acid levels in normoglycemic rats. GVG treatment of hypoglycemic rats led to a decrease in the aspartate level and a further reduction in glutamate and glutamine levels. In this case, GABA accumulation continued, although the glutamine pool was almost depleted. The GABA level increased postmortem, but there were no detectable changes in levels of the other amino acids. Pretreatment of the rats with hypoglycemia reduced both glutamate and glutamine levels with a subsequent decreased postmortem GABA accumulation. The half-maximal GABA synthesis rate was obtained when the glutamate level was reduced by 50% and the glutamine level was reduced by 80%.
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PMID:Regulation of transmitter gamma-aminobutyric acid (GABA) synthesis and metabolism illustrated by the effect of gamma-vinyl GABA and hypoglycemia. 289 10

The objective of the present study was to compare the effects of elevation of GABA concentration and those of inactivation of L-ornithine: 2-oxoacid aminotransferase (OAT) on the in vivo metabolism of L-ornithine (Orn) in brain. Vigabatrin (4-aminohex-5-enoic acid) and gabaculine (5-amino-1,3-cyclohexadienyl carboxylic acid), two well known inactivators of GABA-T, were used to elevate brain GABA concentrations. The latter inactivates OAT also. Transamination of Orn is, from a quantitative point of view, a significant reaction in mouse brain. GABA is a feed-back regulator of OAT. Within GABAergic neurons Orn concentration may be regulated by endogenous GABA. Extensive inactivation of OAT causes a considerable increase of Orn concentration, both in synaptosomes and in non-synaptosomal compartments. The results are compatible with a role of Orn as precursor of glutamate and/or GABA in certain neurons.
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PMID:Interrelationships between ornithine, glutamate, and GABA. II. Consequences of inhibition of GABA-T and ornithine aminotransferase in brain. 289 88

A severe compression craniocerebral trauma was induced in rats under short-term halothane anesthesia. The activity of pyruvate and 2-oxoglutarate dehydrogenase complexes reduced significantly in the tissue of the damaged hemisphere, ALT activity increased sharply, AST activity grew slowly, the production of GABA in the glutamate decarboxylase reaction was slightly inhibited and its utilization in the GABA transaminase reaction was clearly accelerated. The GABA level in the nerve tissue showed a tendency to reduce, while the glutamate level had a tendency to increase. The observed changes are evidence that the inclusion of the GABA skeleton in the reaction of further oxidation intensifies, which may be of significance in compensation of the transport of the energetically oxidizing succinate and, possibly, in the formation of endogenous GABA possessing a stress-relieving effect.
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PMID:[The compensatory function of a GABA shunt in brain energy metabolism in measured craniocerebral trauma in rats]. 290 62


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