• Title of article

    Investigation of structural requirements for inhibitory activity at the rat and housefly picrotoxinin binding sites in ionotropic GABA receptors using DISCOtech and CoMFA Original Research Article

  • Author/Authors

    Xiu-Lian Ju، نويسنده , , Yan-Li Hao، نويسنده , , Jan-Feng Pei، نويسنده , , Yoshihisa Ozoe، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2007
  • Pages
    8
  • From page
    864
  • To page
    871
  • Abstract
    A number of widely diverse compounds that show inhibitory activities at the picrotoxinin binding sites in housefly and rat GABA receptors were investigated by using the distance comparison technique (DISCOtech) and comparative molecular field analysis (CoMFA) methods to explore the pharmacophore models and the three-dimensional quantitative structure–activity relationships (3D-QSAR) of the compounds. These compounds consist of three diverse types of noncompetitive GABA receptor antagonists, i.e., trioxabicyclooctanes and their derivatives, picrodendrins and related terpenoids, and fipronil and its analogs. For investigation of the structural requirements for inhibitory activity at the picrotoxinin binding site of GABA receptor, DISCOtech pharmacophore models containing one center of hydrophobic ring and two hydrogen bond acceptor atoms for both housefly-head and rat-brain GABA receptors were constructed, respectively. In particular, the interacting areas in housefly receptors appear to be wider than that in rat receptors, the differences between rat and housefly receptor models implicate the selectivity of noncompetitive GABA receptor antagonists. In addition, corresponding CoMFA models with good statistical indices (r2 > 0.9 and q2 > 0.5) were also obtained. These models can be used as guidance for the development of new compounds with high activities and selectivities.
  • Keywords
    CoMFA , DI COtech , GABA receptor , Pharmacophore , Noncompetitive antagoni t
  • Journal title
    Chemosphere
  • Serial Year
    2007
  • Journal title
    Chemosphere
  • Record number

    725465