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)

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

Vigabatrin (gamma-vinyl GABA), an enzyme-activated, irreversible inhibitor of GABA transaminase, was administered orally to albino Sprague Dawley and pigmented Lister-Hooded rats. A dose-dependent retinal lesion characterized histologically by disruption of the outer nuclear layer was observed in the Sprague Dawley rat but not in Lister-Hooded rats, indicating that this alteration is related to the absence of pigment. The lesion is similar to that induced in albino rats by light and certain drugs. In addition, myelin vacuolation of the brain was observed in both rat strains, consistent with the findings of other toxicity studies with vigabatrin. In all cases, the vacuolation was limited to myelinated tracts and resulted from separation of the myelin sheath at the intraperiod line. There was no evidence of demyelination, axonal degeneration or damage to contiguous structures in the affected areas. The vacuolation is histologically similar to that induced in rats by certain other compounds such as isoniazid, hexachlorophene, and triethyltin, but differs in that it is focal in distribution, it is limited to the brain, and is reversible upon cessation of treatment.
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PMID:A study of the effects of vigabatrin on the central nervous system and retina of Sprague Dawley and Lister-Hooded rats. 361 99

The antiepileptic drug, vigabatrin, inhibits GABA transaminase, thus elevating GABA levels in the brain. In adult animal experiments, high-dose (200 mg/kg/day) chronic vigabatrin administration is associated with potentially reversible myelin vacuolation, a phenomenon not documented in humans. We hypothesized that vigabatrin might adversely affect myelination in the developing brain. Rats were given vigabatrin in doses comparable to those used clinically (15-50 mg/kg/day), from age 12 to 16 days. The rats were killed at age 19-20 days. We observed decreased myelin staining in the external capsule, axonal degeneration in white matter, evidence of glial cell death in the white matter, and reactive astrogliosis in the frontal cortex. We did not detect myelin vacuolation. These findings indicate that vigabatrin can have adverse and potentially irreversible effects on the developing rat brain. The mechanism of damage could be direct toxicity of vigabatrin or an indirect effect mediated through elevated GABA levels. Vigabatrin has been recommended as a treatment for some forms of childhood epilepsy; therefore, further studies are needed to assess the risks in children.
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PMID:Low-dose vigabatrin (gamma-vinyl GABA)-induced damage in the immature rat brain. 916 39

GABA receptor activation in central nervous white matter may be protective during white matter hypoxia in the adult, and it may modify axonal conduction, especially in the developing brain. GABA uptake is important for the shaping of the GABA signal, but quantitative data are lacking for GABA uptake and GABA-metabolizing enzymes in central nervous white matter. We report that high-affinity uptake of GABA in adult pig corpus callosum, fimbria, subcortical pyramidal tracts, and occipital white matter is approximately 20% of that in temporal cortex gray matter. Tiagabine (0.1 microM), an antiepileptic drug that specifically inhibits the GAT-1 GABA transporter inhibited GABA uptake 50% in temporal cortex and 60-68% in white structures. This finding indicates that GAT-1 is an important GABA transporter in white matter and suggests that white matter GABA uptake is inhibited during tiagabine therapy. GABA transaminase activity in white structures was approximately 20% of neocortical values. Glutamate decarboxylase (GAD) activity in white structures was only 4% of that in neocortex (7-12 pmol/mg tissue x min(-1) versus approximately 200 pmol/mg tissue x min(-1)). Since white matter activity of citrate synthase of the tricarboxylic acid cycle was approximately 25% of neocortical values ( approximately 0.4 nmol/mg tissue x min(-1) versus approximately 1.5 nmol/mg tissue x min(-1)), the low GAD activity suggests a slower metabolic turnover of GABA in white than in gray matter.
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PMID:High-affinity GABA uptake and GABA-metabolizing enzymes in pig forebrain white matter: a quantitative study. 1706 32

The GABAergic system is the main inhibitory neurotransmitter system in the vertebrate brain. Although it is well established that the GABAergic system is affected in neuropsychiatric disorders, in Alzheimer's disease (AD) it has been considered to be relatively spared. In this study we describe the immunohistochemical localization of the main enzymes of the GABAergic system; glutamate decarboxylase 65 (GAD65), GAD67, and GABA transferase (GABAT) in human brain. In neocortex, hippocampus, basal ganglia, and cerebellum, GAD65 and GAD67 immunoreactivity were found in neuropil granules, possibly axonal boutons or terminals, and in a subset of small to midsized neurons. GAD65 preferentially stained neuropil granules, while GAD67 preferentially stained neuronal cell bodies. GABAT intensely labeled many types of neurons and glia cells. While GAD65 and GAD67 stained the cytoplasm of cells homogeneously, GABAT labeling appeared irregular and granular. GAD65 immunoreactivity of neurons and neuropil was severely reduced in AD middle temporal gyrus, hippocampus, and putamen as determined by fluorescence and light microscopic immunohistochemistry. Western blotting revealed a similar reduction of GAD65, but not GAD67, protein levels in the middle temporal gyrus of AD. Our results suggest that the GABAergic system is more severely affected in AD than previously reported. This deficit may contribute to AD pathogenesis by loss of GABAergic inhibitory activity.
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PMID:GAD65, GAD67, and GABAT immunostaining in human brain and apparent GAD65 loss in Alzheimer's disease. 2311 13