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)

Kindling is an animal model of epilepsy produced by focal electrical stimulation of the brain. This chapter: describes the kindling phenomenon; considers the validity of kindling as an animal model and proposes a hypothesis as to how kindling might contribute to human epileptogenesis; presents a critical review of current insights into the underlying mechanisms; and emphasizes that, if progress is to be made in understanding the mechanisms, the network of brain structures underlying kindling must be elucidated. Recent investigations directly related to the network issue are considered, namely studies demonstrating that a brainstem structure, the substantia nigra (SN), can regulate the kindled seizure threshold. Thus, either microinjection of a GABA receptor agonist or a GABA transaminase inhibitor into SN, but not into nearby sites, elevates kindled-seizure threshold. Likewise, destruction of SN, but not of adjacent structures, is associated with an increase of kindled-seizure threshold. These treatments suppress not only clonic motor seizures, but also complex partial seizures and afterdischarge at the site of stimulation. These findings demonstrate that the SN can regulate the intrinsic neuronal excitability of forebrain structures. A hypothesis is advanced that generation of a complex partial seizure requires activation of neurons in the SN which in turn feed back through polysynaptic connections to influence neurons at the site of seizure origin. This nigral influence on neurons at the site of seizure origin is either a direct excitation or a disinhibition. Thus, the seizure represents reverberatory activity within a network of brain structures which includes the SN. Other investigators have proposed that the centrencephalic system subserved seizure propagation; the relationship of the hypothesis proposed here to these earlier ideas is discussed.
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PMID:Kindling model of epilepsy. 287 21

Vigabatrin (gamma-vinyl-GABA or GVG) is an irreversible inhibitor of gamma-aminobutyric acid transaminase (GABA-T), which is an enzyme responsible for gamma-aminobutyric acid (GABA) catabolism. Inhibition of GABA catabolism increases brain concentration of GABA, a neural inhibitor. GVG has been found to be a potent new anti-epileptic drug, especially in the treatment of refractory epilepsy, in particular of complex partial seizures. Three patients who developed a severe status epilepitus while on GVG treatment are reported. A possible proconvulsive effect of GVG is hypothesized, which might result from disinhibition in the nigro-collicular pathway due to increased GABA-levels.
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PMID:Status epilepticus during vigabatrin treatment: a report of three cases. 767 Jul 70

Heroin has been hypothesized to activate opiate receptors and inhibit gamma-aminobutyric acid (GABA) release from inhibitory GABAergic interneurons which, in turn, activates dopamine projection cells. Since the distal sites and consequences of this disinhibition are not well understood on a systems level, heroin-induced brain activity was measured using functional MRI (fMRI) in rats. A significant blood oxygen level-dependent (BOLD) signal increase was seen in cortical regions, including prefrontal cortex, cingulate, and olfactory cortex following acute heroin administration. In contrast, a significant signal decrease was seen in several subcortical areas, including the caudate and putamen, nucleus accumbens, thalamus, and hypothalamus. Pretreatment of gamma-vinyl GABA (GVG), an irreversible GABA transaminase inhibitor, significantly attenuated the heroin-induced BOLD signal changes. Pretreatment of naloxone, an opiate mu receptor antagonist, eliminated the heroin-induced BOLD signal changes and posttreatment of naloxone reversed the heroin-induced BOLD signal changes. It is suggested that the heroin-induced negative and positive BOLD changes are due to direct inhibitory and indirect disinhibitory mechanisms of GABAergic activities. Administration of GVG altered these mechanisms and further suggested that involvement of the opiate's pharmacological actions can, at least in part, be mediated by inhibiting brain GABA release.
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PMID:GABAergic mechanisms of heroin-induced brain activation assessed with functional MRI. 1241 98