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

Because of the importance of the inactivation of GABA aminotransferase to the design of anticonvulsant agents, a seemingly wide variety of inactivators has been investigated; all of the compounds, however, are analogues of GABA, beta-alanine, or delta-aminovaleric acid, which are substrates for the enzyme. Relatively minor modifications in the inactivator structures result in major differences in inactivation mechanisms and enzyme adduct structures. Compounds that inactivate GABA aminotransferase by a Michael addition mechanism, leading to modification of an active-site residue are Class I inactivators. Those that proceed by an enamine mechanism and give ternary adducts are Class II inactivators. Class III inactivators modify only the PLP cofactor; if the inactivation involves aromatization of the inactivator, it is a Class IIIA inactivation, and if no aromatization is involved, then it is a Class IIIB inactivation. The last class of inactivators (Class IV) are not classified on the basis of the mechanism, but, rather, that they require the enzyme to be in the PMP form. There appears to be no trend in partition ratio values when comparing Class I with Class II inactivators. Class III inactivations alter only the cofactor, so it may be possible for these adducts to diffuse slowly out of the active site; reactivation of the apoenzyme would require additional PLP. These inactivators also inactivate a variety of other PLP-dependent enzymes. At this point there does not seem to be a therapeutic advantage of one class of inactivators over another, although the only current example of these inactivators to be useful clinically is gamma-vinyl GABA (vigabatrin), a Class I inactivator recently approved for the drug market in France and the U.K. There is a mechanistic significance, however, for one class over another. If labeling of an active-site amino acid residue is desired, then Class I inactivators should be selected; desire for attachment of the inactivator to both the protein and the cofactor or just to the cofactor would determine whether Class II or Class III inactivators would be chosen. The classification presented here should allow us to think about inactivator structures in terms of their mechanistic potential and, as a result of this, should afford us the opportunity to be able to make predictions regarding inactivation mechanisms for hypothetical new structural classes of inactivators. Since the different mechanistic pathways lead to different types of enzyme adducts, inactivator design may be driven by the class of adduct that is desired.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Design of potential anticonvulsant agents: mechanistic classification of GABA aminotransferase inactivators. 268 82

The homospecific activity of GABA-transaminase (EC 2.6.1.19; GABA-T) in brain or neurons was determined as a function of development in vivo or in culture by measuring the enzyme activity together with the relative amount of GABA-T apoenzyme by the aid of a monospecific anti-GABA-T antibody. It was observed that both in cerebral cortex and cerebellum in vivo and in neurons cultured from these brain regions the homospecific activity of GABA-T changed during development. By incubation of tissue extracts with similar extracts in which GABA-T activity had been selectively and irreversibly destroyed with gamma-vinyl GABA (Vigabatrin) it was established that this change in homospecific activity was at least partly due to the presence of an endogenous activator of GABA-T. The results point towards a rather complex endogenous regulation of GABA-T during development in vivo and in vitro.
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PMID:Development of homospecific activity of GABA-transaminase in the mouse cerebral cortex and cerebellum and in neurons cultured from these brain areas. 271 65

1. The interactions of three GABAergic compounds, gamma-acetylenic GABA, gamma-vinyl GABA and ethylenediamine with the analgesic effects of morphine and pentazocine were examined in mice using the hot plate and tail immersion tests. 2. A significant increase in reaction time induced by morphine was noted in the tail immersion test after pretreatment with the drugs acting through GABA functions. 3. The inhibitors of GABA transaminase, gamma-acetylenic GABA and gamma-vinyl GABA, and the GABAmimetic ethylenediamine did not significantly change the analgesic action induced by pentazocine. 4. In the hot plate test the three GABAergic compounds antagonized the analgesic effects of pentazocine in contraposition with previous results indicating that morphine-induced analgesia is increased by pretreatment with those agents. 5. These findings suggest that GABAergic and opiopeptidergic systems are interconnected through mu receptors, whereas the kappa opiate systems seem to be unrelated to GABA functions.
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PMID:A comparison of GABAergic influences on the analgesic responses to morphine and pentazocine. 271 13

This study better defines the way in which the thalamus controls expression of experimental generalized seizures. The effects of small intrathalamic injections of the direct GABA agonist muscimol on the thresholds of pentylenetetrazol (PTZ)-induced seizures and on spontaneous behavior were determined in the rat and compared with the effects of injections of gamma-vinyl-GABA (GVG), an irreversible inhibitor of GABA transaminase. Muscimol injections produced neuronal inhibition in a relatively small area of thalamus, whereas GVG injections produced inhibition in a much larger area. Muscimol injections in the midline thalamus in the vicinity of the paraventricular, paratenial, interanteromedial, intermediodorsal, and central medial nuclei facilitated PTZ myoclonic and clonic seizures and also produced sedation. These effects on seizure thresholds were attributable both to a lower PTZ threshold dose for initiation of electroencephalographic (EEG) seizure activity and to an increased probability of this EEG activity being expressed as behavioral seizures. Midline injections located more posteriorly in the thalamus also inhibited tonic seizures. Muscimol injections placed laterally, dorsally, or ventrally to this midline thalamic region had much less effect on behavior or seizures. In contrast, GVG injections in the anterior medial thalamus elevated the threshold for all PTZ seizure types and for associated EEG seizure activity but had little effect on spontaneous behavior. These findings demonstrate the existence of an important seizure regulatory system in the midline of the thalamus and a direct anatomic link between the mechanisms for regulating arousal and seizure production which may help explain the association between sleep and seizure facilitation in humans.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Identification of a median thalamic system regulating seizures and arousal. 275 1

Vigabatrin (gamma vinyl GABA, GVG), an enzyme-activated, irreversible inhibitor of GABA transaminase, was administered orally to rats, dogs, and monkeys to observe toxicologic reactions. Myelin vacuolation of the brain was observed. The vacuolation was limited to myelinated tracts and resulted from separation of the myelin sheath at the interperiod line. There was no evidence of demyelination, axonal degeneration, or damage uolation was histologically similar to that observed in association with other drugs such as triethyltin, isoniazid, or hexachlorophene. However, the distribution is limited to the brain and is reversible upon discontinuation of therapy. Two postmortem and three operative specimens from humans have revealed no evidence of vacuolation of myelin.
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PMID:The neuropathology of vigabatrin. 276 14

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.
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PMID:Graded increases in brain GABA: differential effects on feeding and other behaviours in rats. 284 56

Vigabatrin (gamma-vinyl GABA) is a new anticonvulsive drug that irreversibly inhibits the activity of GABA transaminase. The effect of vigabatrin on neurotransmission-related amino acids in CSF of 28 epileptic patients was studied and the relationship between the amino acid pattern and clinical response during 7 months of administration of vigabatrin. Of this study population, 46% had more than 50% decrease in seizure frequency (responders). In 54% the seizures decreased less than 50% (nonresponders). In the whole study group, the levels of total GABA during vigabatrin treatment were 283%, free GABA 197%, homocarnosine 310% and glycine 128% that of the levels at baseline in the same patients. Glutamate, glutamine, aspartate, asparagine, and taurine concentrations did not change. The amino acid pattern in CSF during administration of vigabatrin did not differ significantly in responders and nonresponders. The study suggests that both GABAergic and glycinergic neurotransmission are affected by vigabatrin. The changes in CSF levels of neurotransmitter amino acids are, however, not necessarily related to the clinical response.
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PMID:Effect of vigabatrin (gamma-vinyl GABA) on amino acid levels in CSF of epileptic patients. 285 6

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

Tetrahydroisoxazolopyridinol (THIP), a GABA receptor agonist, gamma-acetylenic-GABA(GAG) and gamma-vinyl-GABA(GVG), two GABA transaminase inhibitors were given in single parenteral doses to three Cebus apella monkeys with persistent dyskinetic movements induced by earlier long-term administration of haloperidol. High doses of THIP temporarily abolished dyskinesias but also caused bradykinesia, ataxia, dystonia and myoclonic jerks. GAG and GVG reduced dyskinesias to a lesser extent and with fewer side effects. Whether the observed antidyskinetic effect is secondary to the concomitant general toxic effects or if these drugs have a specific antidyskinetic action remains an open question.
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PMID:GABA agonists in cebus monkeys with neuroleptic-induced persistent dyskinesias. 289 37

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


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