Identification of structural requirements of estrogen receptor modulators using pharmacoinformatics techniques for application to estrogen therapy

An attempt was made in the present study to explore the structural requirements of known estrogen receptor (ER) modulators for biological activity using pharmacoinformatics approaches to elucidate critical functionalities for new, potent and less toxic chemical agents for successful application in estrogen therapy. For this purpose a group of non-steroidal ligands, 7-thiabicyclo[2.2.1]hept-2-ene-7- oxide derivatives were collected from the literature to perform quantitative structure-activity relationship (QSAR), pharmacophore and molecular docking studies. The 2D QSAR models (R2 α = 0.857, seα = 0.370, Q2 α = 0.848, R2 pred-α = 0.675, spα = 0.537; R2 β = 0.874, seβ = 0.261, Q2 β = 0.859, R2 pred-β = 0.659, spβ = 0.408) explained that hydrophobicity and molar refractivity were crucial for binding affinity in both α- and β-subtypes. The space modeling study (R2 α = 0.955, seα = 1.311, Q2 α = 0.932, R2 pred-α = 0.737, spα = 0.497; R2 β = 0.885, seβ = 1.328, Q2 β = 0.878, R2 pred-β = 0.769, spβ = 0.336) revealed the importance of HB donor and hydrophobic features for both subtypes, whereas, HB acceptor and aromatic ring were critical for α- and β-subtypes respectively. The functionalities developed in the QSAR and pharmacophore studies were substantiated by molecular docking which provided the preferred orientation of ligands for effective interaction at the active site cavity.MA Islam and TS Pillay were funded by the University of Pretoria Vice Chancellor’s post-doctoral fellowship and National Research Foundation (NRF), South Africa Innovation Post-doctoral fellowship schemes.http://link.springer.com/journal/442017-03-31hb2016Chemical Patholog