EC:2.6.1.19 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.6.1.19 (GABA transaminase)
808 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Seizure susceptibility and GABA metabolism were altered in the substantia nigra [SN] of adult male Sprague Dawley rats when these animals were acclimating to an altered plasma osmolality. Changes in GABA metabolism were measured in vivo in SN of the freely moving rat. Suitable precautions were taken to avoid any post-mortem flux of glutamate to GABA and to correct for the underestimation of GABA build up in SN due to the finite diffusion rate of gamma-vinyl GABA [GVG] after stereotaxic injection of small amounts into one side of the brain. Control experiments provided evidence that changes in osmolality, within a normal physiological range, did not affect significantly gamma-aminobutyric acid transaminase [GABA-T]. Also kindling via the medial septum [MS], in the absence of electrical stimulation did not alter GABA metabolism in SN, thus providing a stable baseline for studies of osmotic effects. Hyperosmolality was associated with a rise in seizure thresholds, with a marked reduction of the rate of GABA synthesis in SN, and with a substantial increase in turnover time of the GABA pool. Hypoosmolality, of a degree known to be associated with mild cerebral edema and swelling localized to astrocytes, markedly reduced seizure threshold, and reduced GABA pool size in SN, but did not alter the rate of GABA synthesis significantly. These results demonstrate by new and independent means the relationship between GABA metabolism in the SN and seizure susceptibility in vivo.
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PMID:Alterations of GABA metabolism and seizure susceptibility in the substantia nigra of the kindled rat acclimating to changes in osmotic state. 178 28

The role of gamma-aminobutyric acid (GABA) in the control of plasma testosterone was studied on male mice of inbred strains (CBA/Lac, A/He and BALB/c) exposed to a sexually receptive female in the same cage but separated by a partition. Within 40 minutes, testosterone levels in plasma increased 1.5-3.5 times depending upon the mouse genotype. This process could be completely blocked if GABA accumulation was induced by pretreatment with the GABA transaminase inhibitor, aminooxyacetic acid (AOAA), or by emotional stress induced by 40 min of restraint. Neither bicuculline-induced blockade of GABA receptors nor a decrease of GABA concentration induced by prior administration of thiosemicarbazide (an inhibitor of glutamate decarboxylase), affected the increase of plasma testosterone that occurred in response to presentation of a receptive female. However, at sexual arousal, the bicuculline blockade of GABA receptors significantly reduced the inhibitory effects of both AOAA administration and emotional stress on plasma testosterone levels. We conclude that the inhibitory effect of emotional stress on female-induced activation of testicular endocrine function is mediated, at least in part, via activation of bicuculline-sensitive receptors.
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PMID:Gamma-aminobutyric acid controls the mouse hypothalamic-pituitary-testicular response to the presence of female. 180 32

The rate of gamma-aminobutyric acid (GABA) synthesis in rat-brain slices was determined by inhibiting GABA transaminase with 20-microM gabaculine and measuring the increase of GABA. Added 500-microM glutamine increased the rate of GABA synthesis by 50%, indicating that glutamate decarboxylase is not saturated in brain slices. The stimulation of GABA synthesis with added glutamine in brain slices was much less than that reported for synaptosomes. The lower stimulation in slices was attributable to astrocytic glutamine production, as the rate of GABA synthesis decreased by 44% when glutamine production was inhibited with methionine sulfoximine. Added glutamine restored the rate to the maximal value observed in brain slices. The rate of GABA synthesis was decreased by 65% in slices pretreated with an inhibitor of glutaminase, and added glutamine did not reverse this effect. These results suggest that glutamine produced by astrocytes is a quantitatively important precursor of GABA synthesis in cortical slices.
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PMID:GABA synthesis in brain slices is dependent on glutamine produced in astrocytes. 188 16

The effects of local anesthetics (procaine and lidocaine) on the gamma-aminobutyric acid (GABA) and L-glutamic acid (Glu) levels in rat spinal cord were studied during the convulsive process. The present study also investigated the influence of central GABA manipulations on the local anesthetic-induced convulsions. An increase in spinal GABA levels was observed at the preconvulsive and convulsive states after administration of procaine (170 mg/kg, i.p.) or lidocaine (120 mg/kg, i.p.), which induced clonic convulsions; in the depressive state, GABA levels returned to normal; in all states, Glu levels were unchanged. Semicarbazide (25-100 mg/kg, i.p.), a glutamic acid decarboxylase inhibitor, produced a decrease in spinal GABA content and strongly enhanced both local anesthetic-induced convulsions as shown by a shortening of the latency and an increase in the mortality. Aminooxyacetic acid (AOAA; 10-40 mg-kg, i.p.), a GABA transaminase inhibitor, dose-dependently increased spinal GABA content and markedly suppressed procaine-induced convulsions. However, lidocaine-induced convulsions were enhanced by AOAA. These results suggest that the spinal GABA neuron may respond to the convulsions induced by local anesthetics. Furthermore, there is a clear relationship between spinal GABA content and procaine-induced, but not lidocaine-induced, convulsions.
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PMID:Some correlations between local anesthetic-induced convulsions and gamma-aminobutyric acid in rat spinal cord. 189 77

Vigabatrin (gamma-vinyl-GABA, GVG) is an inhibitor of brain GABA transaminase (GABA-T) that also inhibits platelet GABA-T in rats and humans. We have compared the effects of single and multiple doses of GVG on both enzymes in 19 groups of 10 adult male Wistar rats, treated with increasing GVG doses (0-1,600 mg/kg/day) for 1, 8, and 28 days. The platelet GABA-T was more sensitive to the inhibitory effects of GVG than the brain enzyme was especially with low dosages of GVG. After 8 days of treatment, higher GVG plasma levels and a higher inhibition of both enzymes were shown. However, after 28 days, lower GVG plasma levels and similar inhibition of both enzymes compared to the eighth day were found. Correlations between platelet and brain GABA-T for individual rats were statistically significant after 1 day (r = 0.40, p less than 0.01) but not after 8 and 28 days of treatment because of the total inhibition of platelet GABA-T and only partial inhibition of brain GABA-T. We concluded the following: (a) platelet GABA-T is more inhibited than brain GABA-T when low doses of GVG are used and (b) multiple doses reach a higher inhibition of both enzymes than single doses, which could be explained by an increase in GVG concentrations.
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PMID:Relationship between platelet and brain GABA transaminase inhibition by single and multiple doses of vigabatrin in rats. 191 85

gamma-Aminobutyric acid (GABA), a prominent inhibitory neurotransmitter, is present in high concentrations in beta-cells of islets of Langerhans. The GABA shunt enzymes, glutamate decarboxylase (GAD) and GABA transaminase (GABA-T), have also been localized in islet beta-cells. With the recent demonstration that the 64,000-M, antigen associated with insulin-dependent diabetes mellitus is GAD, there is increased interest in understanding the role of GABA in islet function. Only a small component of beta-cell GABA is contained in insulin secretory granules, making it unlikely that GABA, coreleased with insulin, is physiologically significant. Our immunohistochemical study of GABA in beta-cells of intact islets indicates that GABA is associated with a vesicular compartment distinctly different from insulin secretory granules. Whether this compartment represents a releasable pool of GABA has yet to be determined. GAD in beta-cells is associated with a vesicular compartment, similar to the GABA vesicles. In addition, GAD is found in a unique extensive tubular cisternal complex (GAD complex). It is likely that the GABA-GAD vesicles are derived from this GAD-containing complex. Physiological studies on the effect of extracellular GABA on islet hormonal secretion have had variable results. Effects of GABA on insulin, glucagon, and somatostatin secretion have been proposed. The most compelling evidence for GABA regulation of islet hormone secretion comes from studies on somatostatin secretion, where it has an inhibitory effect. We present new evidence demonstrating the presence of GABAergic nerve cell bodies at the periphery of islets with numerous GABA-containing processes extending into the islet mantle. This close association between GABAergic neurons and islet alpha- and delta-cells strongly suggests that GABA inhibition of somatostatin and glucagon secretion is mediated by these neurons. Intracellular beta-cell GABAA and its metabolism may have a role in beta-cell function. New evidence indicates that GABA shunt activity is involved in regulation of insulin secretion. In addition, GABA or its metabolites may regulate proinsulin synthesis. These new observations provide insight into the complex nature of GABAergic neurons and beta-cell GABA in regulation of islet function.
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PMID:Structural and functional considerations of GABA in islets of Langerhans. Beta-cells and nerves. 193 99

The effects of sodium cyanide (NaCN) on the gamma-aminobutyric acid metabolizing enzymes glutamic acid decarboxylase (GAD) and gamma-aminobutyric acid transaminase (GABA-T) were studied in vitro. With no pyridoxal-5-phosphate added, GAD was non-competitively inhibited by NaCN, with an IC50 of 280 microM. GAD was also inhibited when exposed to an equimolar amount of NaCN and pyridoxal-5-phosphate. NaCN inhibited GABA-T. The inhibition kinetics suggests that NaCN may react with more than one of the substrates and products present during the reaction, i.e. pyridoxal-5-phosphate, alpha-ketoglutarate and/or succinic semialdehyde. The presence of pyridoxal-5-phosphate in the reaction mixture completely protected GABA-T from inhibition by NaCN. The gamma-aminobutyric acid synthesizing enzyme, GAD may thus be inhibited in vivo by NaCN or by a reaction product of NaCN and pyridoxal-5-phosphate. The gamma-aminobutyric acid catabolizing enzyme, GABA-T is not as vulnerable to inhibition by NaCN, since the cyanide-pyridoxal-5-phosphate complex is ineffective as inhibitor.
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PMID:On the inhibition of glutamic acid decarboxylase and gamma-aminobutyric acid transaminase by sodium cyanide. 195 76

Immunoreactive somatostatin (IR-SRIF) and gamma-aminobutyric acid (GABA) contents in the rat brain were investigated to study chronic effects of the treatment with anticonvulsants, carbamazepine (CBZ), valproic acid (VPA) and phenytoin (PHT). Decreased IR-SRIF levels were found in several brain regions after chronic treatment with VPA and CBZ. GABA concentrations were found to be increased significantly in chronic CBZ and VPA treatment in the rat brain, especially in limbic structures. PHT had no effect on both IR-SRIF and GABA contents in the rat brain. Effects of several GABA-mimetic drugs also were studied on IR-SRIF contents in the rat brain. Aminooxyacetic acid an inhibitor of GABA transaminase, induced a decrease in IR-SRIF concentration in the pyriform and entorhinal cortex, whereas ethanolamine-o-sulfate, another GABA-transaminase inhibitor and muscimol, a GABA receptor agonist had no effect on brain IR-SRIF after acute administration. The present results suggest that endogenous somatostatin has an important role for anticonvulsant properties of CBZ and VPA, but not of PHT. The relationship between the changes in IR-SRIF and the GABA transmitter system in the anticonvulsant action of CBZ and VPA remains to be clarified.
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PMID:Effects of anticonvulsants and gamma-aminobutyric acid (GABA)-mimetic drugs on immunoreactive somatostatin and GABA contents in the rat brain. 197 58

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 effects of dopamine D1 and D2 receptor agonists and antagonists on the rate of GABA synthesis in four regions of mouse brain (corpus striatum, cerebellum, cortex and hippocampus) were examined after irreversible inhibition of 4-aminobutyrate: 2-oxoglutarate aminotransferase (EC 2.6.1.19; GABA-T) by gabaculine. The dopamine D2 receptor agonists PPHT, LY 171555 and RU 24213 exerted a dose-related inhibitory effect on GABA synthesis in these four regions. The decreases in the rate of GABA formation were prevented by the dopamine D2 receptor antagonist S(-)-sulpiride. The dopamine D1 receptor agonists SKF 77434 and SKF 38393 augmented gabaculine-induced GABA accumulation in the corpus striatum only, and this effect was blocked by the dopamine D1 receptor antagonist SCH 23390. However, SKF 81297 and SKF 82958, two other dopamine D1 receptor agonists, did not affect or only marginally altered the rate of GABA synthesis. Stimulation of D2 receptors thus induces a decrease in the rate of GABA formation in the four brain areas examined, whereas stimulation of D1 receptors either increases GABA synthesis in the corpus striatum or does not alter it. This effect appears to be independent of the degree of receptor occupancy.
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PMID:Effects of selective dopamine D1 and D2 receptor agonists on the rate of GABA synthesis in mouse brain. 198 57

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