Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UNIPROT:P80404 (
GABA transaminase
)
786
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Because of its abundance in the brain, its ability to produce hyperpolarizing inhibition of almost all neurons, its association with benzodiazepines, and the discovery that many convulsants inhibited its synthesis, gamma-aminobutyric acid (GABA) has often appeared to be the key to epilepsy. Many assumed that "primary" or "genetic" epilepsy must be a disorder of GABA synapses and that GABA agonists would be universal anticonvulsants if permeability and drug metabolism were controlled. The GABA synthetic gene was a logical "candidate gene" for epilepsy. However, the GABA-deficiency theory of epilepsy is less convincing today. GABA agonists were found to intensify seizures in some rodent and human cases. Absence and other generalized seizures in humans often worsened when treated with
GABA transaminase
inhibitors such as gamma-vinyl-GABA. Surprisingly, the
GABA transaminase
inhibitors appear to be more useful in partial than in generalized epilepsies.
Neuronal
GABA uptake blockers are proconvulsant. GABA agonists aggravate seizures in several mutants, ranging from the photosensitive baboon to the genetically epilepsy-prone rat. How can this be understood? Muscimol injections into the pedunculopontine nucleus increase seizures due to systematically administered convulsants, while the receptor blocker bicuculline suppresses seizures after injection into several brain regions, including the striatum. The result of inhibiting inhibitory circuits is excitation. Studies with GABA uptake blockers and the GABAB agonist baclofen are presented in which their combined administration provoked seizures in rats. Baclofen was shown also to increase the incidence of seizures evoked by pentylenetetrazole without increasing seizures due to local injections of excitatory amino acids. Baclofen antagonized the myoclonic effect of 5-hydroxytryptophan in rats with serotonin lesions. Baclofen augments some seizures and inhibits others. Selective inhibition of a particular tract, whether GABAergic or not, may have convulsant or anticonvulsant effects, depending on its connections and the state of the organism. GABAA receptor stimulation is usually but not always anticonvulsant. GABAB receptor stimulation may facilitate absence seizures and related primary generalized seizures. GABAB receptors may be abnormal in some forms of nonfocal epilepsy seen in childhood. It is likely that mutations of GABA transporter and GABAA receptor genes will be found in humans but they will probably not be patients with "pure epilepsy."
...
PMID:GABA and epilepsy: their complex relationship and the evolution of our understanding. 131 57
The neuronal distribution of gamma-aminobutyric acid (GABA) transaminase (
GABA-T
), the enzyme which metabolizes GABA, has been mapped in rat brain. The method involves staining for newly synthesized
GABA-T
by the previously established nitro blue tetrazolium technique in animals killed 8-48 hours after administration of gabaculine, an irreversible inhibitor of
GABA-T
.
Neuronal
staining is obscured by staining of other elements if initial suppression is inadequate or survival times postgabaculine are too long. With appropriate conditions,
GABA-T
-positive neuronal somata can be widely detected. The stained cells include neuronal groups previously reported to be GABAergic on the basis of glutamate decarboxylase (GAD)-colchicine immunocytochemistry and other methods, i.e.: Purkinje, basket, Golgi, and stellate neurons of the cerebellum; basket and stellate neurons of the hippocampus; granule and periglomerular cells of the olfactory bulb; magnocellular neurons of the hypothalamus; and neurons of the striatum, pallidum, entopeduncular nucleus, cortex, medial septal area, diagonal band, substantia innominata, reticular nucleus of the thalamus, substantia nigra, and dorsal raphe. Other cells that stain intensely for
GABA-T
and may be GABAergic include neurons in the midlateral septal area, accumbens, the central medial and basal nuclei of the amygdala, zona incerta, the brainstem reticular formation, central gray, interstitial nucleus of Cajal, and various thalamic nuclei including the periventricular, intralaminar, rhomboid, and subparafascicular. Known non-GABA neuronal groups are negative for
GABA-T
staining under these conditions, reinforcing the hypothesis that GABA neurons are far more
GABA-T
intensive than other neurons.
...
PMID:Distribution of GABA-T-intensive neurons in the rat forebrain and midbrain. 688 73
