UNIPROT:P80404 - FACTA Search

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)

Vigabatrin, a gamma-amino butyric acid (GABA) transaminase inhibitor, is known to inhibit partial epilepsy in humans. The spontaneously epileptic rat (SER), a double mutant (zi/zi, tm/tm), exhibits both tonic convulsion and absence-like seizures from the age of 8 weeks. Hippocampal CA3 pyramidal neurons in SER show a long-lasting depolarization shift with accompanying repetitive firing when a single stimulus is delivered to the mossy fibers in slice preparations. The effects of vigabatrin on the abnormal excitability of hippocampal CA3 pyramidal neurons in SER were examined to elucidate the mechanism underlying the antiepileptic action of the drug. Intracellular recordings were performed in 24 hippocampal slice preparations of 20 SER aged 8-17 weeks old. Bath application of vigabatrin (1 mM) inhibited the depolarizing shifts with repetitive firing induced by mossy fiber stimulation in 15 min without affecting the first spike and resting membrane potentials in hippocampal CA3 neurons of SER. A higher dose of vigabatrin (10 mM) sometimes inhibited the first spike. However, vigabatrin at doses up to 10 mM did not significantly affect the single action potential elicited by stimulation of the mossy fibers in the hippocampal CA3 neurons of age-matched Wistar rats. In addition, application of vigabatrin (10 mM) did not significantly affect the firing induced by depolarizing pulse applied in the CA3 neurons of the SER, nor the miniature excitatory postsynaptic potential (mEPSP) recorded in the CA3 neurons of SER. The inhibitory effect of vigabatrin (1 mM) on the mossy fiber stimulation-induced depolarization shift with repetitive firing was blocked by concomitant application of bicuculline (10 microM), a GABA(A) receptor antagonist. These findings strongly suggested that GABA increased by inhibition of GABA transaminase with vigabatrin inhibits abnormal excitation of hippocampal CA3 neurons of SER via GABA(A) receptors, although the possibility that the drug acted directly on the GABA(A) receptors of CA3 neurons could not be completely excluded.
Epilepsy Res 2002 Aug
PMID:Effects of vigabatrin on epileptiform abnormal discharges in hippocampal CA3 neurons of spontaneously epileptic rats (SER). 1220 Feb 13

Gabapentin (GBP) has been shown to reduce paired-pulse inhibition in the dentate gyrus of the urethane-anesthetized rat, which is a proconvulsant effect, and to shorten the afterdischarge duration, which is an antiepileptic effect. The mechanism by which GBP exerts these effects is not known, but a number of possibilities have been proposed. Here we tested the ability of vigabatrin (VGB), a GABA transaminase inhibitor, and SKF89976A, a selective GAT-1 blocker, to alter the effectiveness of GBP in the dentate gyrus in urethane-anesthetized adult Sprague-Dawley rats. VGB, alone at 100 mg/kg, had no effect on the evoked potentials or paired-pulse inhibition in the dentate gyrus, but did block lengthening of the afterdischarge. Pretreatment with VGB had no effect on the ability of GBP to reduce paired-pulse inhibition, but blocked the effect of GBP on seizure duration. SKF89976A, alone at 10 mg/kg, increased paired-pulse inhibition and blocked the lengthening of the afterdischarge in the seizure model. Pretreatment with SKF89976A had no effect on the actions of GBP on either paired-pulse inhibition or seizure duration. These results suggest that the action of GBP is not mediated through an inhibition of the GAT-1 transporter and probably not through an increase in basal levels of GABA. The data also suggest that the combination of VGB and GBP may be clinically less effective than the use of GBP alone.
Epilepsy Res 2002 Dec
PMID:Modulation of the in vivo effects of gabapentin by vigabatrin and SKF89976A. 1245 29

gamma-Aminobutyric acid (GABA) is the primary inhibitory neurotransmitter in the central nervous system. GABA is converted from glutamic acid by the action of glutamic acid decarboxylase (GAD) of which two isoforms exist GAD65 and GAD67. GABA then is broken down, both within the cell and in the synaptic cleft by GABA transaminase to form succinic semialdehyde. In turn, succinic semialdehyde is converted either to succinic acid by succinic semialdehyde dehydrogenase or into gamma-hydroxybutyric acid (GHB) by succinic semialdehyde reductase. Because GABA modulates the majority of inhibition that is ongoing in the brain, perturbations in GABAergic inhibition have the potential to result in seizures. Therefore, the most common disorder in which GABA is targeted as a treatment is epilepsy. However, other disorders such as psychiatric disease, spasticity, and stiff-person syndrome all have been related to disorders of GABAergic function in the brain. This review covers the roles of GABAergic neurotransmission in epilepsy, anxiety disorders, schizophrenia, stiff-person syndrome, and premenstrual dysphoric disorder. In the final section of this review, the GABA metabolite GHB is discussed in terms of its physiological significance and its role in epilepsy, sleep disorders, drug and alcohol addiction, and an inborn error of GABA metabolism, succinic semialdehyde dehydrogenase deficiency.
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PMID:GABA, gamma-hydroxybutyric acid, and neurological disease. 1289 48

The pediatric neurotransmitter disorders represent a challenging group of rare neurometabolic disorders classified on the basis of alterations in neurotransmitter metabolic pathways. The disorders are currently classified into disturbances of monoamine and gamma-aminobutyric acid (GABA) metabolism, although disorders of other neurotransmitters, such as glutamate and melatonin, may well be recognized in future investigations. This review summarizes the clinical and laboratory features of selected pediatric neurotransmitter disorders that have been partially delineated. Of the monoamine group, these are Segawa disease or guanosine triphosphate-cyclohydrolase I deficiency, aromatic L-amino acid decarboxylase deficiency, and tyrosine hydroxylase deficiency. Of the GABA disorders, these are pyridoxine-dependent epilepsy, GABA transaminase deficiency, and succinic semialdehyde dehydrogenase deficiency. As proper collection, handling, and interpretation of cerebrospinal fluid is required for assessment of most of these disorders, we end by summarizing important considerations for obtaining cerebrospinal fluid samples.
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PMID:Pediatric neurotransmitter diseases. 1498 87

The present study was performed to evaluate the central nervous system inhibitory effects of the essential oil from SuHeXiang Wan (Storax pill), a prescription usually used for treating epilepsy in traditional Chinese medicine, on fragrance inhalation (aroma therapy). Preinhalation of the fragrance oil markedly delayed the appearance of pentylenetetrazole-induced convulsion, but showed weak activities on picrotoxin- and strychnine-induced convulsions, which implies this drug may inhibit the convulsion by GABAergic neuromodulation. This essential oil inhibited the binding of [(3)H]Ro15-1788, a selective antagonist for the benzodiazepine receptor and also the binding of [(3)H]flunitrazepam, a selective agonist for the receptor, in the presence of gamma-aminobutyric acid (GABA) and NaCl, showing a positive GABA shift, which suggested the strong possibility of the agonistic activity of the essential oil to the GABA/benzodiazepine receptor complex in rat cerebral cortices. Furthermore, inhalation inhibited the activity of GABA transaminase as the inhalation period was lengthened. The GABA level was significantly increased and glutamate content was significantly decreased in mouse brain by preinhalation of the essential oil. The above results suggest that the anticonvulsive effect of this essential oil can also originate from the enhancement of GABA level in the mouse brain, because convulsion depends partially on GABA concentration which can be properly preserved by inhibiting GABA transaminase. Fragrance inhalation progressively prolonged the pentobarbital-induced sleeping time as inhalation time was lengthened and inhibited brain lipid peroxidation, to which the anticonvulsive action is attributed; this also supported the above results, confirming the inhibitory effects of the essential oil of SuHeXiang Wan on the CNS via the GABAergic system.
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PMID:Inhibitory effects of the essential oil from SuHeXiang Wan on the central nervous system after inhalation. 1505 57

Epileptic patients experienced an irreversible loss of their peripheral visual field upon treatment with vigabatrin (gamma-vinyl GABA), an inhibitor of the GABA degrading enzyme, GABA transaminase. Subsequently, central visual function was reported to also be irreversibly altered. This visual loss is associated with a decrease in the electroretinogram measurement localizing the deficit to the retina. To investigate its cellular origin, we treated rats daily with vigabatrin for 45 days. Two days after arresting this treatment, rats exhibited an irreversible decrease in the photopic electroretinogram, the flicker response, and the oscillatory potentials. These functional alterations were associated with a peripheral disorganization of the outer retina. However, photoreceptor damage was not limited to these disorganized areas, but cone inner and outer segments were severely injured in more central areas and their numbers were irreversibly decreased by 17 to 20%. Ultrastructural examination of the retina confirmed the presence of major photoreceptor damages, which were further supported by terminal deoxynucleotidyltransferase-mediated dUTP nick end labeling (TUNEL) and caspase-3 activation both indicative of photoreceptor apoptosis. This study suggests that the visual field loss in vigabatrin-treated epileptic patients may result from a sequence of events starting from cone cell injury to a more severe disorganization of the photoreceptor layer.
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PMID:Vigabatrin, the GABA-transaminase inhibitor, damages cone photoreceptors in rats. 1512 10

The present study was performed to determine whether the effects induced by GABA(B) receptor-acting drugs would be related with the alteration in GABA(B) receptor expression in the hippocampus using Mongolian gerbil, a genetic epilepsy model. The distribution patterns of both GABA(B) receptor 1A/B and GABA(B)receptor 2 immunoreactivities were similarly detected in the hippocampi of normal and seizure-prone gerbils. Following baclofen (GABA(B) receptor agonist) or phaclofen (GABA(B) receptor antagonist) treatment, GABA(B) receptor immunoreactivities were decreased or increased by dose-dependent manners, respectively. Vigabatrin (GABA transaminase inhibitor) or 3-mercaptopropionic acid (GAD inhibitor) treatment did not affect GABA(B) receptor expressions. These findings suggest that GABA(B) receptor expression in the gerbil hippocampus may be altered by baclofen or phaclofen treatment.
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PMID:Altered GABAB receptor immunoreactivity in the gerbil hippocampus induced by baclofen and phaclofen, not seizure activity. 1523 66

Childhood absence epilepsy (CAE) is a well-defined generalized epilepsy syndrome clinically characterized by frequent absence seizures. The aim of this study was to assess the activity of GABA transaminase (GABA-T) and the kinetic parameters of GABA uptake in platelets from patients with CAE. We studied 13 patients with CAE and eight sex- and age-matched controls. The mean activity of GABA-T was lower in patients with CAE than in controls (1.22+/-0.05 vs. 1.75+/-0.10 micromol/min/kg protein). The capacity of GABA uptake into the platelets was higher in patients using valproate (0.66+/-0.09 micromol/min/kg protein), but not in those using ethosuximide (0.34+/-0.05 micromol/min/kg protein), when compared to controls (0.26+/-0.06 micromol/min/kg protein). The affinity of the transporters was not altered. The observed peripheral alterations may indicate impaired function of brain GABAergic systems in children with absence epilepsy.
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PMID:Uptake of GABA and activity of GABA transaminase in blood platelets from children with absence epilepsy. 1553 43

In the mammalian central nervous system (CNS), the inhibitory GABAergic system is composed of different signaling molecules such as glutamate decaroxylase, vesicular GABA transporters, GABA receptors, GABA transporters and GABA transaminase. A prevailing view is that the balance between excitatory signaling mediated by glutamate and inhibitory signaling mediated by GABA plays a pivotal role in mechanisms underlying the modulation and maintenance of a variety of neural functions. Therefore, abnormalities in a GABAergic signaling molecule would lead to a crisis of severe symptoms relevant to a number of neuropsychiatric disorders. These include epilepsy, depression, schizophrenia, stiff-person syndrome, drug addiction and so on. In this review article, we will summarize recent studies on the relationship between the malfunction of GABAergic signaling molecules and the etiology of these neuropsychiatric disorders. We will also refer to novel strategies on GABAergic signaling molecules other than GABA receptors for therapeutic usefulness in the future.
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PMID:[Neuropsychiatric disorders and GABA]. 1565 2

Vigabatrin, an inhibitor of GABA breakdown by GABA transaminase and of GABA transporter isoform 1 (GAT1), and tiagabine, a highly specific inhibitor of GAT1, have successfully been applied in the treatment of epilepsy. We investigated the effects of individual and combined application of these drugs on GAT1 expressed in Xenopus oocytes, and examined the effects on epileptiform discharges in the CA3 area of brain slices of genetically epileptic El and control ddY mice, and on the occurrence of seizures in El mice. Simultaneous application of vigabatrin and tiagabine inhibited epileptiform discharges induced by high-K+ solution in the brain slices in an antagonistic fashion. The degree of inhibition by tiagabine after pre-treatment with vigabatrin was additive in ddY mice and synergistic in El mice. In Mg2+-free solution, co-treatment by the two drugs produced additive inhibition in slices from both mouse strains, but pre-treatment with vigabatrin produced synergistic inhibition in slices only from ddY mice. In the slices from El mice, a combination of drugs resulted in additive effects in both co- and pre-treatment by the drugs. Although these drugs are also effective in vivo at suppressing seizure occurrence in El mice, the combined application does not show synergistic effects, but rather is antagonistic under the experimental conditions in this particular variant of epilepsy. The synergistic inhibition of epileptiform discharges in brain slices may, in part, have originated from the complex interaction with GAT1. In experiments on the GAT1 expressed in oocytes it could be demonstrated that synergistic inhibition occurs only at low concentration (0.1 nM) of vigabatrin. This illustrates that the oocytes may form a powerful test system for drug screening and investigation of complex drug interactions. These results present a novel interpretation of synergistic inhibition of certain epileptic discharges using vigabatrin and another drug, and that for successful synergistic treatment of epilepsies carefully designed timed dosage regimens are essential.
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PMID:Antiepileptic action induced by a combination of vigabatrin and tiagabine. 1580 87

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