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)

The immunocytochemical distribution of gamma-aminobutyric acid (GABA), GABA synthesizing enzyme; L-glutamate decarboxylase (GAD) and degradative enzyme; GABA transaminase (GABA-T) in the chicken vestibular endorgans and the vestibular ganglion was investigated. GABA and GAD-like immunoreactivity were confined to the sensory hair cell cytoplasm, suggesting that GAD synthesizes GABA in the hair cell. GABA-T-like immunoreactivity, indicative of GABA degradation, was found around hair cells, along nerve fibers running through the stroma and within the ganglion cell. These immunocytochemical findings indicate that the GABAergic system exists in the chicken vestibular endorgans and that GABA may function as an afferent neurotransmitter at the level of hair cells.
Brain Res 1989 Dec 04
PMID:Immunocytochemical study of the GABA system in chicken vestibular endorgans and the vestibular ganglion. 260 15

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.
Pharmacol Biochem Behav 1989 Dec
PMID:GABA turnover in the brain of rat lines developed for differential ethanol-induced motor impairment. 262 44

To test the assumption that in the mice cortex the rate of accumulation of gamma-aminobutyric acid (GABA) after irreversible inhibition of 4-aminobutyrate: 2-oxoglutarate aminotransferase (EC 2.6.1.19; GABA-T) represents an index of GABA turnover, we examined whether the reversal of the gabaculine-induced accumulation of GABA elicited by apomorphine was due to a decrease in GABA turnover or to a modulation of the activity of the GABA-T inhibitor. Therefore, we simultaneously measured the action of apomorphine on gabaculine-induced accumulation of GABA and on GABA-T activity. In vitro, apomorphine (3 and 30 microM) did not alter the concentration-dependent inhibition of GABA-T by gabaculine. Ex vivo, apomorphine (2 x 0.5 mg/kg s.c.) markedly decreased (69%) gabaculine-induced (150 mg/kg i.p.) accumulation of GABA. This drug had no direct effect on GABA-T activity, but significantly reduced from 83 to 71% the inhibition of GABA-T by gabaculine. The linear correlation found between GABA levels and GABA-T activity allowed the quantification of the decrease in GABA turnover elicited by apomorphine. The results showed that apomorphine decreased significantly (P less than 0.001) the rate of GABA synthesis from 7.48 to 3.36 micromol GABA/g per h, if the partial reversal of gabaculine-induced inhibition of GABA-T is considered and 2.44 micromol/g per h if not. Apomorphine effect on GABA accumulation is mainly due to a decrease of the rate of GABA synthesis and to a lesser extent to a reversal of the inhibitory activity of gabaculine. Thus, inhibition of GABA-T by gabaculine is a sensitive and reliable method for the estimation of the rate of synthesis.
Eur J Pharmacol 1989 Dec 19
PMID:Reversal by apomorphine of the gabaculine-induced GABA accumulation in mouse cortex. 263 Feb 98

GABA-T (4-aminobutyrate-2-ketoglutarate aminotransferase) has been found in human hair follicle. Kinetics experiments with hair follicle homogenate supported a ping-pong type of enzymatic mechanism. Extrapolated Km values were 1.02 mmol/l for GABA and 0.45 mmol/l for alpha-ketoglutarate. Hair follicle GABA-T activity was completely inhibited by preincubation of the samples with either 5 x 10(-8) mol/l aminooxyacetic acid or 5 x 10(-4) mol/l gamma-vinyl GABA. The radioenzymatic assay presented is both sensitive enough (only 10 hair follicles are needed for one assay) and economical, making it suitable for clinical practice. Hair follicle GABA-T activity determination could be useful in the study of GABA deficiency diseases (such as epilepsy), congenital GABA-T deficiencies or the control of GABA-T inhibitors treatment.
Rev Esp Fisiol 1989 Dec
PMID:4-aminobutyrate-2-ketoglutarate aminotransferase (GABA-T) in human hair follicle. 263 Nov 56

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.
J Neurochem 1989 Dec
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

Elevations of brain gamma-aminobutyric acid (GABA) induced by inhibitors of GABA transaminase (GABA-T) are known to induce a number of functional effects including depression of food intake. The aim of the present study was to determine the brain GABA elevation threshold for changes in feeding and several other behaviours, in an effort to clarify whether feeding changes might be secondary to other functional deficits. To this end, various doses of the GABA-T inhibitors ethanolamine-o-sulfate (EOS) and gamma-vinyl GABA (GVG) were injected intracisternally and effects on whole brain GABA, food and water intake, open field activity, catalepsy indices, pain sensitivity, and core temperature were assessed 24 h later. Progressive increases in brain GABA levels were found to differentially affect the responses studied. At the low end of the continuum, significant decreases in feeding behaviour were associated with relatively modest increases in brain GABA (40-60%). At higher levels of GABA elevation (greater than 100%), changes in motoric functions and rectal temperature became apparent. At still higher levels (greater than 200% increases in brain GABA), significant antinociceptive effects were detected. These results support the notion that feeding decreases induced by low doses of GABA-T inhibitors may reflect a fairly specific effect on appetite mechanisms, but also indicate that with increasingly higher doses several other deficits are likely to contribute to the overall decrease in food intake.
Behav Brain Res 1988 Dec 01
PMID:Graded increases in brain GABA: differential effects on feeding and other behaviours in rats. 284 56

Acute exposure of adult male albino rats (110-120 g) to higher environmental temperature (40 +/- 1 degrees C) increased body temperature (BT). This increase of BT was also dependent on the duration of exposure. Treatment with muscimol (1 mg/kg, i.p.), a GABA agonist, produced hypothermia at room temperature (28 +/- 1 degree C) and resistance to increase the body temperature when exposed to higher temperature (40 +/- 1 degree C). Administration of bicuculline (1 mg/kg, i.p.), a GABA antagonist, on the other hand, enhanced BT more than that observed in control (normal) rat exposed to higher temperature (40 +/- 1 degree C), although at room temperature bicuculline treatment did not show any effect on BT. Pretreatment with ethanolamine-O-sulfate (EOS) (2 g/kg, s.c.), a GABA transaminase inhibitor, to rats exposed to higher temperature increased BT as in control (normal) rat. Inhibition of central GAD activity with mercaptopropionic acid (MPA) (70 mg/kg, i.p.) produced resistance to increase BT during its period of action when rats were exposed to higher environmental temperature (28 +/- 1 degree C). These results thus suggest that central inhibitory neuron, GABA, plays a regulatory role in thermoregulation.
Methods Find Exp Clin Pharmacol 1988 Dec
PMID:Involvement of GABA in environmental temperature-induced change in body temperature. 323 43

The effects of microinjection of various neuroactive compounds into the anterior thalamic nucleus (AN) and other selected subcortical regions of guinea pig brain on the expression of pentylenetetrazol (PTZ)-induced behavioral and electrical seizure activity were examined. Excitatory agents, kainic acid (KA), bicuculline (BIC) or PTZ, injected into the AN or other thalamic nuclei, striatum, but not the mammillary bodies (MB), facilitated the EEG convulsant action of systemically administered PTZ. Injection of muscimol into the AN protected against the expression of PTZ-induced repetitive high-voltage EEG seizure discharges and inhibited the facilitatory effects of subcortically applied KA or BIC. Injection of muscimol into the AN was also able to terminate established ongoing seizure discharges. Unilateral application of muscimol to the AN did not prevent the repetitive hypersynchronous EEG discharges following systemic PTZ but did result in the delay in the onset of cortical hypersynchrony in the ipsilateral hemisphere. Muscimol injections into other thalamic nuclei, MB, cortex, striatum or directly into the CSF space had no anticonvulsant effect, however. Microinjection of gamma-vinyl-gamma-aminobutyric acid, a selective GABA transaminase inhibitor, resulted in protection from the behavioral convulsant action and lethal effects of PTZ when administered into the thalamus, especially the AN, but not when injected into the striatum or CSF. These data demonstrate that the AN is an important subcortical nucleus for the mediation of both cortical EEG synchrony and behavioral seizure expression induced by PTZ. In light of previous results establishing a role for the brainstem and diencephalon in PTZ seizure expression, the AN may serve, in part, as a gating mechanism for the propagation of paroxysmal activity between subcortical areas and the cerebral cortex.
Brain Res 1986 Dec 10
PMID:Anterior thalamic mediation of generalized pentylenetetrazol seizures. 354 79

It has been reported that thyrotropin-releasing hormone (TRH) improves the ataxia of cerebellar type. The mechanism of action is unclear. As well recognized, GABA (gamma aminobutyric acid) is an important neurotransmitter in cerebellar system. So, if TRH acts on cerebellum, it is expected that the GABA metabolism will be modified by in vivo or in vitro TRH application. The purpose of this experiment is to clarify whether or not TRH affects on GABA system in cerebellar system. The first experiment was to determine the effect of TRH on the two GABA related enzyme activities, that is, GAD (glutamic acid decarboxylase) and GABA-T (GABA-transaminase). TRH was intraperitoneally injected at a dose of 5 mg/kg. In mouse brains, the two enzyme activities of hindbrains increased after 60 minutes. Next experiment assaying GAD activities at two parts of hindbrain revealed that the increase in hindbrain observed above was due to marked increase in brain-stem (p less than 0.001), but not in cerebellum itself in which the GAD activities decreased (p less than 0.05). On the other hand, in the forebrains, the same dose of TRH failed to change both GAD and GABA-T activities. In order to ascertain the effect more precisely, we assayed GAD activities at seven parts of the brain of Wistar male rats. By this experiment, it was found that GAD activities increase at two portions, namely, at thalamo-midbrain after 30 minutes and at pons-medulla after 180 minutes of TRH injection (p less than 0.05, in both). Other five portions, including cerebellum, showed no significant change of GAD activities.(ABSTRACT TRUNCATED AT 250 WORDS)
No To Shinkei 1985 Dec
PMID:[Effect of thyrotropin releasing hormone (TRH) on GABA (gamma aminobutyric acid) metabolism in mouse and rat brains: as to the activities of GAD (glutamic acid decarboxylase), GABA-T (GABA-transaminase) and GABA re-uptake]. 393 48

Pyrithiamine, a thiamine phosphokinase inhibitor, was fed to rats on a thiamine-deficient diet, producing weight loss, ataxia and loss of righting reflex in 10 days. Some rats were then sacrificed; others were returned to a normal diet, to be sacrificed only when their weight had returned to pre-experimental levels. Rats were sacrificed for assay of glutamic acid decarboxylase (GAD) and choline acetyltransferase (ChAT) activities in homogenates of eight brain regions or were perfused for gamma-aminobutyric acid transaminase (GABA-T) histochemistry. GAD activity was significantly reduced in symptomatic rats in the thalamus greater than cerebellum greater than midbrain greater than pons/medulla. GABA-T staining was similarly reduced, with greatest losses in the thalamus greater than inferior colliculus greater than pons greater than medulla. ChAT activity was not significantly altered in any brain area. Following return to a normal diet. GAD activity was significantly recovered in all areas except the thalamus. GABA-T staining recovered, at least partially, in all areas affected.
Neurochem Res 1985 Dec
PMID:GABA-transaminase and glutamic acid decarboxylase changes in the brain of rats treated with pyrithiamine. 408 35


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