Ligand and structure-based methodologies for the prediction of the activity of G protein-coupled receptor ligands

Stefano Costanzi, Irina G. Tikhonova, T. Kendall Harden, Kenneth A. Jacobson

Research output: Contribution to journalArticlepeer-review

25 Citations (Scopus)
282 Downloads (Pure)

Abstract

Accurate in silico models for the quantitative prediction of the activity of G protein-coupled receptor (GPCR) ligands would greatly facilitate the process of drug discovery and development. Several methodologies have been developed based on the properties of the ligands, the direct study of the receptor-ligand interactions, or a combination of both approaches. Ligand-based three-dimensional quantitative structure-activity relationships (3D-QSAR) techniques, not requiring knowledge of the receptor structure, have been historically the first to be applied to the prediction of the activity of GPCR ligands. They are generally endowed with robustness and good ranking ability; however they are highly dependent on training sets. Structure-based techniques generally do not provide the level of accuracy necessary to yield meaningful rankings when applied to GPCR homology models. However, they are essentially independent from training sets and have a sufficient level of accuracy to allow an effective discrimination between binders and nonbinders, thus qualifying as viable lead discovery tools. The combination of ligand and structure-based methodologies in the form of receptor-based 3D-QSAR and ligand and structure-based consensus models results in robust and accurate quantitative predictions. The contribution of the structure-based component to these combined approaches is expected to become more substantial and effective in the future, as more sophisticated scoring functions are developed and more detailed structural information on GPCRs is gathered.

Original languageEnglish
Pages (from-to)747-754
Number of pages8
JournalJournal of Computer-Aided Molecular Design
Volume23
Issue number11
DOIs
Publication statusPublished - Nov 2009

ASJC Scopus subject areas

  • Physical and Theoretical Chemistry
  • Computer Science Applications
  • Drug Discovery

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