Structural requirements for imidazobenzodiazepine binding to GABA(A) receptors.

Several structural subclasses of ligands bind to the benzodiazepine (BZD) binding site of the GABA(A) receptor. Previous studies from this laboratory have suggested that imidazobenzodiazepines (i-BZDs, e.g., Ro 15-1788) require domains in the BZD binding site for high-affinity binding that are distinct from the requirements of classic BZDs (e.g., flunitrazepam). Here, we used systematic mutagenesis and the substituted cysteine accessibility method to map the recognition domain of i-BZDs near two residues implicated in BZD binding, gamma(2)A79 and gamma(2)T81. Both classic BZDs and i-BZDs protect cysteines substituted at gamma(2)A79 and gamma(2)T81 from covalent modification, suggesting that these ligands may occupy common volumetric spaces during binding. However, the binding of i-BZDs is more sensitive to mutations at gamma(2)A79 than classic BZDs or BZDs that lack a 3'-imidazo substituent (e.g., midazolam). The effect that gamma(2)A79 mutagenesis has on the binding affinities of a series of structurally rigid i-BZDs is related to the volume of the 3'-imidazo substituents. Furthermore, larger amino acid side chains introduced at gamma(2)A79 cause correspondingly larger decreases in the binding affinities of i-BZDs with bulky 3' substituents. These data are consistent with a model in which gamma(2)A79 lines a subsite within the BZD binding pocket that accommodates the 3' substituent of i-BZDs. In agreement with our experimental data, computer-assisted docking of Ro 15-4513 into a molecular model of the BZD binding site positions the 3'-imidazo substituent of Ro 15-4513 near gamma(2)A79.