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- Title
Binding mode prediction and MD/MMPBSA-based free energy ranking for agonists of REV-ERBα/NCoR.
- Authors
Westermaier, Yvonne; Ruiz-Carmona, Sergio; Theret, Isabelle; Perron-Sierra, Françoise; Poissonnet, Guillaume; Dacquet, Catherine; Boutin, Jean; Ducrot, Pierre; Barril, Xavier
- Abstract
The knowledge of the free energy of binding of small molecules to a macromolecular target is crucial in drug design as is the ability to predict the functional consequences of binding. We highlight how a molecular dynamics (MD)-based approach can be used to predict the free energy of small molecules, and to provide priorities for the synthesis and the validation via in vitro tests. Here, we study the dynamics and energetics of the nuclear receptor REV-ERBα with its co-repressor NCoR and 35 novel agonists. Our in silico approach combines molecular docking, molecular dynamics (MD), solvent-accessible surface area (SASA) and molecular mechanics poisson boltzmann surface area (MMPBSA) calculations. While docking yielded initial hints on the binding modes, their stability was assessed by MD. The SASA calculations revealed that the presence of the ligand led to a higher exposure of hydrophobic REV-ERB residues for NCoR recruitment. MMPBSA was very successful in ranking ligands by potency in a retrospective and prospective manner. Particularly, the prospective MMPBSA ranking-based validations for four compounds, three predicted to be active and one weakly active, were confirmed experimentally.
- Subjects
FREE energy (Thermodynamics); MACROMOLECULAR dynamics; DRUG design; MOLECULAR dynamics; NUCLEAR receptors (Biochemistry)
- Publication
Journal of Computer-Aided Molecular Design, 2017, Vol 31, Issue 8, p755
- ISSN
0920-654X
- Publication type
Academic Journal
- DOI
10.1007/s10822-017-0040-7