Abstract
Computer-aided drug design techniques are today largely applied in medicinal chemistry. In particular, receptor-based virtual screening (VS) studies, in which molecular docking represents the gold standard in silico approach, constitute a powerful strategy for identifying novel hit compounds active against the desired target receptor. Nevertheless, the need for improving the ability of docking in discriminating true active ligands from inactive compounds, thus boosting VS hit rates, is still pressing. In this context, the use of binding free energy evaluation approaches can represent a profitable tool for rescoring ligand-protein complexes predicted by docking based on more reliable estimations of ligand-protein binding affinities than those obtained with simple scoring functions. In the present review, we focused our attention on the Molecular Mechanics-Poisson Boltzman Surface Area (MM-PBSA) method for the calculation of binding free energies and its application in VS studies. We provided examples of successful applications of this method in VS campaigns and evaluation studies in which the reliability of this approach has been assessed, thus providing useful guidelines for employing this approach in VS.
Highlights
Computer-aided drug design includes a vast range of different techniques that are widely applied in medicinal chemistry, at present
We summarized the results of recent studies focused on the reliability analysis of ligand-protein binding energy evaluations based on the Mechanics-Poisson Boltzman Surface Area (MM-PBSA) method in virtual screening (VS)
We provided examples of various VS studies in which this procedure has been profitably applied for the identification of novel ligands of different targets
Summary
Computer-aided drug design includes a vast range of different techniques that are widely applied in medicinal chemistry, at present. This allows to considerably accelerate the computation time required to calculate the binding energy associated to a single ligand-protein complex and, to evaluate a large number of complexes in a reasonable amount of time For this reason, the MM-PBSA method has been evaluated and applied as a rescoring protocol in VS campaigns, as a strategy to overcome common limitations of simple scoring functions of docking software and to improve the screening power and the hit rates of docking-based VS approaches for the identification of new active molecules. We provided an overview of examples in which the MM-PBSA approach has been successfully applied in various types of VS studies
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
