Superimposition-based protocol as a tool for determining bioactive conformations: II. Application to the GABA A receptor

Abstract

The natural templates (NT) superimposition method is used to determine the pharmacophoric requirements of the A subtype of the γ-aminobutyric acid (GABA) receptor. Bioactive conformations for antagonists and agonists are found by superimposing them on a relatively rigid alkaloid bicuculline, which itself is a competitive antagonist at this ligand-gated ion channel receptor. As has been usual in the application of this modeling method, consideration of available experimental data is the cornerstone for obtaining realistic models. The identification of two substructural fragments of bicuculline permitted classification of the ligands. Analysis of the antagonists and agonists with respect to the two substructural fragments revealed two bioactive conformations of the highly flexible GABA molecule, one of which is extended with the nonhydrogenic atoms roughly coplanar torsional angles of −37 and −179° at N–C–C–C and C–C–C–C (carboxyl), respectively. The second bioactive compound is clearly non planar (torsional angles of −81 and −109° at N–C–C–C and C–C–C–C (carboxyl), respectively).