3D ENANTIOSELECTIVE DESCRIPTORS FOR LIGAND-BASED COMPUTER-AIDED DRUG DESIGN

• Main Author: Sliwoski, Gregory Richard
• Other Authors: Jens Meiler
• Format: Others
• Language: en
• Published: VANDERBILT 2012
• Subjects: Interdisciplinary Studies: Interdisciplinary Pharmacology
• Online Access: http://etd.library.vanderbilt.edu/available/etd-07192012-140314/

A novel three dimensional stereoselective descriptor for use in ligand-based computer-aided drug design (CADD) is presented in this thesis. CADD is an important tool for drug discovery and ligand-based CADD involves the computational analysis and representation of known active compounds for the prediction of novel active compounds. Several approaches are available for ligand-based CADD including quantitative structure-activity relationship (QSAR) which seeks to describe molecules numerically using descriptors. Stereochemistry is an important determinant of a molecules biological activity but presents a challenge for QSAR applications. Presented is the novel 3D-QSAR descriptor termed EMAS (Enantio-selective Molecular ASymmetry) that is capable of distinguishing between enantiomers and describing stereochemistry in a physically meaningful way. The descriptor aims to measure the deviation from an overall symmetric shape of the molecule. EMAS showed good predictability when tested with a dataset of thirty-one steroids commonly used to benchmark stereochemistry descriptors (r2=0.89, q2= 0.78). Additionally, EMAS improved enrichment of 4.38 versus 3.94 without EMAS in a simulated virtual high-throughput screening (vHTS) for inhibitors and substrates of cytochrome P450.