Rational Design of Thermodynamic and Kinetic Binding Profiles by Optimizing Surface Water Networks Coating Protein-Bound Ligands

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• 作者：Stefan G. Krimmer ; Jonathan Cramer ; Michael Betz ; Veronica Fridh ; Robert Karlsson ; Andreas Heine ; Gerhard Klebe
• 刊名：Journal of Medicinal Chemistry
• 出版年：2016
• 出版时间：December 8, 2016
• 年：2016
• 卷：59
• 期：23
• 页码：10530-10548
• 全文大小：984K
• ISSN：1520-4804

文摘

A previously studied congeneric series of thermolysin inhibitors addressing the solvent-accessible S₂′ pocket with different hydrophobic substituents showed modulations of the surface water layers coating the protein-bound inhibitors. Increasing stabilization of water molecules resulted in an enthalpically more favorable binding signature, overall enhancing affinity. Based on this observation, we optimized the series by designing tailored P₂′ substituents to improve and further stabilize the surface water network. MD simulations were applied to predict the putative water pattern around the bound ligands. Subsequently, the inhibitors were synthesized and characterized by high-resolution crystallography, microcalorimetry, and surface plasmon resonance. One of the designed inhibitors established the most pronounced water network of all inhibitors tested so far, composed of several fused water polygons, and showed 50-fold affinity enhancement with respect to the original methylated parent ligand. Notably, the inhibitor forming the most perfect water network also showed significantly prolonged residence time compared to the other tested inhibitors.