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)

Several benzodiazepines (chlordiazepoxide, clonazepam, diazepam and flunitrazepam) markedly counteracted the elevation of the homovanillic acid (HVA) content of the rat brain induced by neuroleptics (haloperidol, pimozide, chlorpromazine, and clozapine). A similar effect was obtained with the inhibitor of GABA transaminase, aminooxyacetic acid (AOAA). The interaction of benzodiazepines with the neuroleptic-induced HVA increase was similar in the striatum and in the limbic forebrain and was antagonized by the GABA receptor-blocking agent, picrotoxin. Both the benzodiazepines used and AOAA potentiated the cataleptic effect of the four neuroleptics. It is concluded that benzodiazepines, by intensifying GABA-ergic transmission, enhance the ongoing inhibition of mesencephalic dopamine neurons exerted by the striatonigral GABA system. As a consequence, the feedback activation of dopamine neurons induced by the neuroleptic blockade of dopamine receptors in the striatum and the limbic system is attenuated. This results in a reduction of the neuroleptic-induced increase of HVA and in the potentiation of the cataleptic effect of neuroleptics.
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PMID:Interaction of benzodiazepines with neuroleptics at central dopamine neurons. 1 77

The analysis of the interaction of ethanolamine-O-sulphate with 4-aminobutyrate transaminase revealed that the inhibitory effect is exerted upon the substrate subsite of the active site of the enzyme in aldimine form. The inhibition in irreversible. The inactivation rate versus pH-curve was shown to have a sigmoid character with inclination point at neutral pH. The study of inhibition kinetics by the Kitz and Wilson method revealed a complex inhibitory pattern compatible with a minimal two-step mechanism. Rate constant of inactivation was found to be equal to 0.22 min-1 and the value of the inhibitory constant--to 1.1-10(-2) M.
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PMID:[Inhibition of 4-aminobutyrate transaminase by ethanolamine-O-sulfate]. 1 33

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

Intranigral injection of muscimol induced hyperactivity in rats and antagonized haloperidol-induced catalepsy. Intranigral injection of gabaculine, an inhibitor of GABA transaminase, induced similar effects 5h after injection, when the nigral GABA content was increased 7-fold. On the other hand, injections of muscimol (30 ng) into the globus pallidus potentiated the cataleptic effect of haloperidol, and muscimol alone in high doses (100 and 200 ng) induced catalepsy. Gabaculine also induced catalepsy of medium intensity and potentiated the effect of haloperidol 24h after injection, when GABA was increased in the globus pallidus as well as in the substantia nigra. Injections of muscimol into either the globus pallidus or substantia nigra increased striatal HVA and enhanced haloperidol-induced elevation of HVA. Three benzodiazepines, nitrazepam, diazepam and chlordiazepoxide administered orally, potentiated the effect of muscimol (30 ng) injected into the globus pallidus and induced catalepsy. A similar effect was not obtained with phenobarbital. It is suggested that stimulation of GABA receptor or increase of GABA content in the sustantia nigra antagonize haloperidol-induced catalepsy by activation of nigral dopaminergic system, and that enhancement of pallidal GABA function induces catalepsy by non-dopaminergic mechanisms. Potentiation of haloperidol-induced catalepsy by benzodiazepines may be due to enhancement of GABA-ergic transmission within the globus pallidus.
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PMID:Cataleptic and anticataleptic effects of muscimol and gabaculine injected into globus pallidus and substantia nigra, and interactions with haloperidol or benzodiazepines. 3 40

In the neostriatum of adult rats the distribution of Dopamine and GABA was investigated by means of fluorescence histochemical methods. There is a different mode of distribution of the transmitters in this brain region. The animals were treated with cycloserin, acting as an inhibitor of the GABA transaminase, in order to enhance the GABA content. In the neostriatum GABA containing neurons and GABA-ergic afferents could be demonstrated. GABA containing fibers are present in the whole striatum. Varicose Dopamine fibers appear as a dense fluorescent network.
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PMID:[Fluorescence histochemical investigations on the topic of GABA and dopamine in the neostriatum of the rat (author's transl)]. 11 31

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

Regional brain GABA distribution studies show that after administration of sodium n dipropylacetate, a competitive inhibitor of GABA transaminase, the concentration of GABA increases in some regions i.e. Olfactory Bulbs, Hypothalamus, Cortex, Cerebellum. The GABA level remains unchanged in Caudate Nucleus, Pons Medulla, Hippocampus in our experimental conditions. These variations do not correlate with the initial GABA level.
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PMID:[Effects of sodium n-dipropylacetate on the GABA level in various areas of the mouse brain]. 14 Jul 50

gamma-Acetylenic GABA and gamma-vinyl GABA, two catalytic irreversible inhibitors of mammalian brain GABA transaminase that produce several-fold increases in brain GABA concentrations were tested for their effects on bicuculline and picrotoxin-induced seizures and mortality in mice. Neither inhibitor influenced the frequency of seizures or death produced by either bicuculline or picrotoxin. Both inhibitors, however, produced a dose-dependent prolongation of the time to onset of seizures and death induced by picrotoxin but by bicuculline. These results suggest differences in the antagonism by bicuculline and picrotoxin of GABA-mediated neural functions.
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PMID:Effect of elevated brain GABA concentrations on the actions of bicuculline and picrotoxin in mice. 20 Sep 66

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


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