Decomposition analysis of free energy profile for Hsp90-ADP association

Abstract

The functional cycle of heat shock protein 90 (Hsp90) is driven and inhibited by the association/dissociation of ligand molecules. In order to understand the molecular mechanism of the association of N-terminal domain of Hsp90 (N-Hsp90) and its ligand molecule, it is necessary to investigate which part in the target system promotes or inhibits the association of N-Hsp90 and its ligand molecule. We apply the decomposition analysis for the association free energy of N-Hsp90 and ADP. The mean force calculated by thermodynamic integration method combined with molecular dynamic simulations is divided into the contributions from molecules in the target system. Van der Waals interaction of the solvent water molecules strongly stabilises the association. Three lysine residues on the surface of the N-Hsp90 pull ADP toward the binding pocket of N-Hsp90. This study elucidates the association process of ADP from the bulk region to the binding pocket of the N-terminal domain Hsp90. This approach is applicable to elucidate the association process of biomolecules.