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Like other GABA-T inhibitors, γ-acetylenic GABA causes GABA levels in the brain to be elevated. This is due to 4-aminobutyrate transaminase being the enzyme that converts γ-aminobutyric acid to L-glutamate. Inhibiting the enzyme stops this conversion from happening.
GABA is the major inhibitory neurotransmitter in the mammalian brain where it acts on the repertoire of GABA A receptors, the ligand-gated chloride channels. It is assembled from a diverse subunit pool, including assemblies from a family of 19 subunits (α1-α6, β1-β3, γ1-γ3, δ, ∈, θ, π and ρ1-ρ3).
Along with determining the effect of GABA levels, in vivo studies were conducted to investigate the ability of gabaculine to inhibit convulsions in mice. Results indicated that gabaculine provided a clear anticonvulsant effect against seizures induced by high doses of chemoconvulsants or electroshock. [ 10 ]
Unlike vertebrates and invertebrates, the GABA produced by GAD is used in plants to signal abiotic stress by controlling levels of intracellular Ca 2+ via CaM. Binding to CaM opens Ca 2+ channels and leads to an increase in Ca 2+ concentrations in the cytosol, allowing Ca 2+ to act as a secondary messenger and activate downstream pathways.
Although the mechanism of action of valproate is not fully understood, [33] traditionally, its anticonvulsant effect has been attributed to the blockade of voltage-gated sodium channels and increased brain levels of the inhibitory synaptic neurotransmitter gamma-aminobutyric acid (GABA). [33]
A GABA reuptake inhibitor (GRI) is a type of drug which acts as a reuptake inhibitor for the neurotransmitter gamma-Aminobutyric acid (GABA) by blocking the action of the gamma-Aminobutyric acid transporters (GATs). This in turn leads to increased extracellular concentrations of GABA and therefore an increase in GABAergic neurotransmission. [1]
The GABAA beta-2 subunit is a protein that in humans is encoded by the GABRB2 gene.It combines with other subunits to form the ionotropic GABAA receptors. GABA (γ-aminobutyric acid) system is the major inhibitory system in the brain, and its dominant GABAA receptor subtype is composed of α1, β2, and γ2 subunits with the stoichiometry of 2:2:1, which accounts for 43% of all GABAA receptors.
In enzymology, 4-aminobutyrate transaminase (EC 2.6.1.19), also called GABA transaminase or 4-aminobutyrate aminotransferase, or GABA-T, is an enzyme that catalyzes the chemical reaction: 4-aminobutanoate + 2-oxoglutarate ⇌ {\displaystyle \rightleftharpoons } succinate semialdehyde + L-glutamate