Exploring the mechanism of interaction between sulindac and human serum albumin: Spectroscopic and molecular modeling methods

Abstract

In the present study, a combination of fluorescence, molecular modeling and circular dichroism (CD) approaches had been employed to investigate the interaction between sulindac and human serum albumin (HSA). Results of mechanism discussion demonstrated that the fluorescence quenching of HSA by sulindac was a static quenching procedure. Binding parameters calculated from the modified Stern–Volmer equation showed that sulindac bound to HSA with the binding affinities in the order of 105Lmol−1. The thermodynamic parameters (ΔH=−18.58kJmol−1; ΔS=37.26Jmol−1K−1) obtained by the van′t Hoff equation revealed that hydrophobic forces played a leading role in the formation of sulindac–HSA complex, but hydrogen bonds could not be omitted. Site marker competitive experiments revealed a displacement of warfarin by sulindac, which indicated that the binding site of sulindac to HSA located in the sub-domain IIA (Sudlow′s site I). The molecular docking study confirmed the specific binding mode and binding site obtained by fluorescence and site marker competitive experiments. CD and three-dimensional fluorescence spectroscopy were used to investigate the changes of HSA secondary structure and microenvironment in the presence of sulindac. Alterations of HSA conformation were observed with the reduction of α-helix from 60.1% (free HSA) to 57.3%, manifesting a slight unfolding of the polypeptides of protein.