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)

Our efforts have been directed towards characterizing amino acid uptake, metabolism and release in bulk-isolated glia and neuronal perikarya studied in parallel with nerve-endings, especially as it concerns the transmitter amino acids and the participation of glia in the clearing of the synpatic space during impulse conduction. A possible neuromodulator role for the glia at the synapse is also suggested by K+-stimulated release. Our most definitive conclusions have been based so far on studies with GABA, although we are also beginning to accumulate data for glutamate related to glutamate-glutamine compartmentation. Glia preferentially accumulate potassium and amino acids compared to neuronal perikarya, have higher Na+/K+-ATPase activity, possess high-affinity, sodium-dependent uptake systems for GABA and glutamate similar to the ones in synaptosomes, and release amino acid in response to a potassium pulse by a calcium-independent process. Low neuronal uptake could be due to loss of dendrites. Unidirectional GABA-flux from the synaptosomal to glial compartment is supported by high GAD in nerve endings compared to high GABA-T in glia. Glutamine may be a transmitter glutamate-precursor in nerve-endings since glutaminase activity is high in nerve-endings, but low in glia where glutamine is presumably made. Glutamine uptake in both glia and synaptosomes obeys low-affinity kinetics in contrast to glutamate, consistent with the inability of glutamine to excite the neuronal membrane. The studies with GABA, which are considerably more extensive, are supported by related work using glia in tissue-culture and autoradiography. There appears to be a suggested difference in the behavior of amines which were poorly taken up by the glial system. Glia, synaptosomes and neuronal perikarya, in general behaved similarly with respect to requirements for uptake and release, except in the case of Ca++, which exerted opposite effects on glial and synaptosomal uptake of GABA. We believe that work along these lines tends to firmly establish a direct role for glial cells as modulators of neuronal excitability and represents a convergence between transmitter amino acid neuropharmacology and cellular biochemistry. This not only deepens and enlarges the vocabulary of synaptic biochemistry but also undoubtedly will have major clinical applications in the fields of epilepsy and behavior.
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PMID:Amino acid transport in isolated neurons and glia. 0 26

The uptake and release of 3H-dopamine was studied in slices of corpus striatum and substantia nigra in the presence of nialamide. High potassium triggered the outflow of tritium in both brain structures and this release was potentiated by GABA in a dose related fashion, whereas the spontaneous overflow of radioactivity was unchanged. This action of GABA was mimicked by the GABA-T antagonists aminooxyacetic acid and ethanolamine-O-sulphate, but not by the GABA analogues muscimol, 3-aminopropanesulphonic acid, gamma-hydroxybutyrate or beta-(p-chlorophenyl)-GABA. The response to GABA was not blocked by picotoxin, which itself facilitated the evoked release of 3H-dopamine, nor by bicuculline or the omission of calcium ions from the bathing medium. GABA facilitation of K+-evoked 3H-dopamine release was increased significantly on reducing tissue thickness and following prolonged incubation with GABA. GABA also potentiated the depolarization induced outflow of 3H-noradrenaline, 3H-5-hydroxytryptamine and 3H-histamine without affecting their initial accumulation. Veratridine, amphetamine and cold dopamine also raised the output of 3H-dopamine, but none of these releases was altered by GABA. The uptake of 3H-dopamine, but not that of 14C-GABA, was considerably attenuated in 6-hydroxydopamine lesioned corpora striata. The possible mechanism(s) of this stimulatory action of GABA is discussed.
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PMID:GABA-mediated potentiation of amine release from nigrostriatal dopamine neurones in vitro. 75

In mice, tonic convulsive seizure induced by intravenous administration of caffeine (adenosine A1, A2 receptors antagonist) was significantly potentiated by any one of L-PIA (adenosine A1 receptor agonist), NECA (adenosine A2 receptor agonist) and 2-ClAd (adenosine A1, A2 receptors agonist). The caffeine-induced seizure was unaffected by diazepam (benzodiazepine receptor agonist), but was inhibited by Ro 15-1788 (antagonist or partial agonist). beta-DMCM (antagonist or inverse agonist) increased the seizure. Muscimol (GABA-a receptor agonist), baclofen (GABA-b receptor agonist) and AOAA (GABA transaminase inhibitor) did not show significant effect on caffeine-induced convulsion. Bicuculline (GABA-a receptor antagonist) and picrotoxin (chloride channel blocker) significantly potentiated the convulsion at the doses which did not induce it. Caffeine-induced convulsion was potentiated by NMDA with its non-convulsive dose. CPP (competitive NMDA receptor antagonist) and MK-801 (non-competitive NMDA receptor antagonist) significantly inhibited the seizures. These results suggest that caffeine-induced seizure is not caused by blockade of adenosine receptors. Caffeine may act to beta-carboline sensitive benzodiazepine receptor (Type 1) which has no linkage with GABA-a receptor. Furthermore, it is implied that caffeine plays some role at NMDA receptor calcium ion channel complex.
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PMID:[Effects of agonists and antagonists of benzodiazepine, GABA and NMDA receptors, on caffeine-induced seizures in mice]. 132 1

1. 3H-gamma-Aminobutyric acid (GABA) release elicited by a depolarizing K+ stimulus or by noradrenergic transmitter was examined in rat pineals in vitro. 2. The release of 3H-GABA was detectable at a 20 mM K+ concentration in medium and increased steadily up to 80 mM K+. 3. In a Ca2+-free medium 3H-GABA release elicited by 30 mM K+, but not that elicited by 50 mM K+, became blunted. 4. Norepinephrine (NE; 10(-6)-10(-4) M) stimulated 3H-GABA release from rat pineal explants in a dose-dependent manner. 5. The activity of 10(-5) M NE on pineal GABA release was suppressed by equimolecular amounts of prazosin or phentolamine (alpha 1- and alpha 1/alpha 2-adrenoceptor blockers, respectively) and was unaffected by propranolol (beta-adrenoceptor blocker). 6. The alpha 1-adrenoceptor agonist phenylephrine (10(-7)-10(-5) M) and the beta-adrenoceptor agonist isoproterenol (10(-5) M) mimicked the GABA releasing activity of NE, while 10(-7) M isoproterenol failed to affect it; the alpha 2-adrenoceptor agonist clonidine (10(-7)-10(-5) M) did not modify 3H-GABA release. 7. The addition of 10(-4) M GABA or of the GABA transaminase inhibitor gamma-acetylenic GABA or aminooxyacetic acid inhibited the melatonin content and/or release to the medium in rat pineal organotypic cultures. 8. GABA at concentrations of 10(-5) M or greater partially inhibited the NE-induced increase in melatonin production by pineal explants. 9. The depressant effect of GABA on melatonin production was inhibited by the GABA type A receptor antagonist bicuculline; bicuculline alone increased the pineal melatonin content. Baclofen, a GABA type B receptor agonist, did not affect the pineal melatonin content or release. 10. The decrease in serotonin (5-HT) content of rat pineal explants brought about by NE was not modified by GABA; GABA by itself increased 5-HT levels. 11. These results indicate that (a) GABA is released from rat pineals by a depolarizing stimulus of K+ through a mechanism which is partially Ca2+ dependent; (b) NE releases rat pineal GABA via interaction with alpha 1-adrenoceptors; (c) GABA inhibits melatonin production in vitro via interaction with GABA type A receptor sites; and (d) GABA's effect on NE-induced melatonin release does not correlate with the lack of effect on the NE-induced decrease in pineal 5-HT content.
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PMID:Release and effect of gamma-aminobutyric acid (GABA) on rat pineal melatonin production in vitro. 247 90

Slices of rat temporo-parietal cortex were prelabeled with gamma-[3H]aminobutyric acid ([3H]GABA), in the presence of the glial GABA uptake inhibitor beta-alanine. The slices were then superfused with a medium containing the GABA transaminase inhibitor aminooxyacetic acid and stimulated electrically (5 min, 2 msec, 36 mA at 5 or 10 Hz), in the presence of the neuronal GABA reuptake inhibitor SK&F 89976A [N-(4,4-diphenyl-3-butenyl)-nipecotic acid] and of beta-alanine. Representative experiments showed that the tritium released could be accounted for almost entirely by authentic [3H]GABA. The electrically evoked overflow of [3H]GABA was tetrodotoxin sensitive and largely calcium-dependent. Exogenous GABA, added to the superfusion medium at 3 to 30 microM, reduced in a concentration-dependent manner the electrically evoked (5 Hz) release of [3H]GABA. The GABAB receptor agonist (-)-baclofen, but not the GABAA receptor agonist muscimol, mimicked GABA and produced a concentration-inhibition curve almost superimposable to that of the natural transmitter. The effects of GABA and of (-)-baclofen were much more pronounced at 5 than at 10 Hz. The GABA-induced inhibition of [3H]GABA release was sensitive to the novel GABAB receptor antagonist beta-(p-chlorophenyl)-3-amino propyl phosphonic acid which, by itself, increased the [3H]GABA overflow. The inhibitory effect of GABA was not counteracted by the GABAA receptor antagonists bicuculline or SR 95531 [2-(3'-carbethoxy-2'-propenyl)-3-amino-6-paramethoxy-phenyl-pyr idazinium bromide]. The results are compatible with the presence in the rat cerebral cortex of autoreceptors mediating inhibition of GABA release and belonging to the GABAB type. These autoreceptors may be activated tonically under physiological conditions.
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PMID:Release of gamma-[3H]aminobutyric acid (GABA) from electrically stimulated rat cortical slices and its modulation by GABAB autoreceptors. 254 42

By using a radioreceptor assay GABA was detectable in rat interscapular brown adipose tissue (IBAT), the levels being 1% those of CNS and 10-fold those of peripheral plasma. Injection of the glutamic acid decarboxylase (GAD) inhibitor 3-mercaptopropionic acid lowered IBAT GABA levels by about half while injection of the GABA transaminase inhibitor gamma-acetylenic GABA increased them by 230%. Rats kept at 4 degrees C for 14 days exhibited IBAT GABA levels that were about half those found at 22 degrees C. Accumulation of IBAT GABA after gamma-acetylenic GABA increased by 2-fold in cold-exposed rats. Sympathetic denervation of IBAT prevented the effect of the cold environment on GABA content and impaired that on GABA accumulation. GAD activity was detectable in IBAT homogenates and isolated brown adipocytes. Exposure of rats to cold increased Vmax of GAD without modifying its Km, regardless of intactness of innervation. In binding studies with 3H-GABA as a ligand, two types of sites were uncovered of KD = 14 and 146 nM, respectively. In the presence of 2.5 mM Ca2+ bicuculline and baclofen were 57 and 46% as effective as GABA to displace 3H-GABA from IBAT binding sites. The results indicate existence, possible synthesis and type A and B receptors of GABA in rat IBAT.
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PMID:GABA and its neural regulation in rat brown adipose tissue. 275 28

Twenty sheep were used to study the mechanisms by which the intracerebral administration of pentobarbital and of muscimol induces feeding in ruminants. Injections of 1 mumol calcium induced a weak feeding response at 1 h postinjection compared with control values (108 vs. 63 g, p less than 0.05). Injections of 78 mumol pentobarbital and of 100 nmol muscimol elicited strong feeding responses (p less than 0.01). A preinjection of 1 mumol calcium reduced the response to pentobarbital by about 40% but did not affect the response to muscimol. Administration of 1.1 mmol sodium chloride reduced the effect to pentobarbital by about 60% but only partially decreased the effect to muscimol. Administration of picrotoxin, a GABA antagonist, slightly decreased the feeding response to pentobarbital and to muscimol. Administration of gamma-vinyl GABA, an inhibitor of the enzyme GABA transaminase, did not affect feeding behavior of sheep at any of the doses tested (0-10 mumol). Injections of gamma-vinyl GABA followed by equimolar injections of GABA failed to provoke any feeding response. The data suggest that pentobarbital and muscimol may induce feeding by acting on a similar hypothalamic receptor complex but by different mechanisms. The lack of effect of GABA itself remains unexplained.
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PMID:Comparison between pentobarbital- and muscimol-induced feeding in satiated sheep. 316 84

Putative GABAergic neurons in the outer retina of the Texas channel catfish, Ictalurus punctatus, were studied using autoradiographic, biochemical and electrophysiological techniques. A red cone horizontal cell was found to accumulate exogenous GABA in the presence of red light. GABA could be released from these cells with high K+ Ringers solution. The release was only partially blocked by Co2+ and therefore may be only partially Ca2+ dependent. The red cone horizontal cells were found to contain significant activities of L-glutamic acid decarboxylase and GABA transaminase, the enzymes responsible for GABA synthesis and degradation respectively. These data suggest that catfish red cone horizontal cells are GABAergic. To substantiate this, recordings were made from photoreceptors and horizontal cells during the superfusion of the GABA blocking agents bicuculline methochloride or picrotoxin. These agents modified the cone responses in the manner specified if they were blocking the feedback pathway from horizontal cells to cones. Thus it is likely that the horizontal cells are using GABA as the transmitter in the feedback pathway. In addition, the GABA blocking agents were found to interfere with changes in horizontal cell responses which occur during light adaptation.
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PMID:The identification and some functions of GABAergic neurons in the distal catfish retina. 674 Sep 69

The effects of chronic treatment with the specific, mechanism-based, irreversible inhibitors of 4-aminobutyrate aminotransferase (EC 2.6.1.19; GABA transaminase), ethanolamine O-sulphate (EOS), and 4-aminohexenoate [vigabatrin; gamma-vinyl-GABA (GVG)] on the extracellular concentrations of GABA in the hippocampus have been studied using in vivo microdialysis in conscious animals. Oral dosing [3 mg/ml of drinking water, giving doses of GVG of 194 +/- 38 mg/kg/day and of EOS of 303 +/- 42 mg/kg/day (mean +/- SD)] was followed by microdialysis at 2, 8, and 21 days. The basal outflow of GABA (in the range of approximately 1-2 pmol/30 microliters/30-min sample) after 2 and 8 days of treatment was not significantly different from that in control animals, but the 21-day treatment gave significant rises in the extracellular GABA concentration (up to approximately 6-8 pmol/30 microliters/30-min sample). Both inhibitors gave similar results. Depolarisation with 100 mM K+ gave large increases in GABA release in control (approximately 20-60 pmol/30 microliters/30-min sample) and treated animals. The 8- and 21-day-treated animals showed significant increases in the stimulated release compared with control animals (approximately 80-100 pmol/30 microliters/30-min sample). Excluding Ca2+ had no significant effect on either basal or stimulated release. The significant increases in K(+)-evoked release of GABA show that the increased intracellular pool of GABA is available for release, and this may be related to the anticonvulsant action of these compounds.
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PMID:The effect of chronic treatment with the GABA transaminase inhibitors gamma-vinyl-GABA and ethanolamine-O-sulphate on the in vivo release of GABA from rat hippocampus. 772 10

Kinetics of uptake and release, rates of oxidation of glutamate and aspartate, activities of the enzymes of glutamate metabolism were studied in the mitochondrial, synaptosomal and cytosolic preparations of rat cerebellum. Transport of these amino acids into mitochondria was by a single low affinity carrier, whereas in synaptosomes both high and low affinity uptake systems were observed. The depolarization induced release of these amino acids from nerve terminals was observed to be calcium dependent. Mitochondria oxidized both these two amino acids at a higher rate than synaptosomes and the oxidation in cytosol was very minimal. Transamination appears to be the major reaction for the metabolism of glutamate and aspartate. Activities of GDH, GLNSE and GABA-T were highest in mitochondria, whereas activities of GS and GAD were highest in cytosol and synaptosomes respectively.
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PMID:Uptake, release and metabolism of glutamate and aspartate by rat cerebellar subcellular preparations. 809 41


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