In today's world, Gabazine is a topic that has gained great relevance in various areas. Whether in politics, society, science or technology, Gabazine has managed to capture the attention of a large number of people around the world. Its influence is so significant that its impact has been felt in different aspects of daily life, generating discussions, debates and reflections around its importance and implications. In this article we will further explore the role of Gabazine today, analyzing its different facets and trying to understand how it has come to occupy such a prominent place in the public conversation.
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Formula | C15H18BrN3O3 |
Molar mass | 368.231 g·mol−1 |
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Gabazine (SR-95531) is a drug that acts as an antagonist at GABAA receptors. It is used in scientific research and has no role in medicine, as it would be expected to produce convulsions if used in humans.
Gabazine binds to the GABA recognition site of the receptor-channel complex and acts as an allosteric inhibitor of channel opening. The net effect is to reduce GABA-mediated synaptic inhibition by inhibiting chloride flux across the cell membrane, and thus inhibiting neuronal hyperpolarization. While phasic (synaptic) inhibition is gabazine-sensitive, tonic (extrasynaptic) inhibition is relatively gabazine-insensitive.
Gabazine has been found to bind to and antagonize α4βδ subunit-containing GABAA receptors, which may represent the GHB receptor.