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Abstract
GABAARs are pentameric ligand-gated ion channels that play a major role in mediating inhibition in the CNS. They are the target of many widely used positive allosteric modulators (PAMs) of GABAARs such as general anesthetics, sedatives, antiepileptics, and anxiolytics. However, close structural analogs of these PAMs are negative allosteric modulators (NAMs) that cause excitation. Comparison of the SAR of inhibitory and excitatory barbiturates suggested that conformationally-constrained spiro-analogs of phenobarbital might have intermediate allosteric activity. More than 50 spiro-analogs were synthesized and characterized for their ability to enhance desensitization and reverse the action of anesthetics. A number of these reversed the action of anesthetics without having any action on GABA-induced desensitization. These constitute a new class of GABA-ergic drug that are null allosteric ligands. They offer the potential of reversing the sedative action of current PAMs and of modulating the behavior of diseases resulting from mutations in GABAAR subunits.
Supplementary materials
Title
The Action of Positive Allosteric Modulators of the GABAAR Can Be Reversed by Novel Spiro Barbiturates, Supplamental Information
Description
The supporting information is available free of charge. Figure S1, X-ray structure of BW-B-15-2 and Figure S2: Structures of all synthesized and characterized spiro-barbiturates in this work; 1H, 13C and HR MS spectra for all new synthesized compounds.
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