Strengthening an Intramolecular Non‐Classical Hydrogen Bond to Get in Shape for Binding

Abstract

AbstractIn this research article, we report on the strengthening of a non‐classical hydrogen bond (C−H⋅⋅⋅O) by introducing electron withdrawing groups at the carbon atom. The approach is demonstrated on the example of derivatives of the physiological E‐selectin ligand sialyl Lewisx (1, sLex). Its affinity is mainly due to a beneficial entropy term, which is predominantly caused by the pre‐organization of sLex in its binding conformation. We have shown, that among the elements responsible for the pre‐organization, the stabilization by a non‐classical hydrogen bond between the H−C5 of l‐fucose and the ring oxygen O5 of the neighboring d‐galactose moiety is essential and yields 7.4 kJ mol−1. This effect could be further strengthened by replacing l‐fucose by 6,6,6‐trifluoro‐l‐fucose leading to an improved non‐classical H‐bond of 14.9 kJ mol−1, i.e., an improved pre‐organization in the bioactive conformation. For a series of glycomimetics of sLex (1), this outcome could be confirmed by high field NMR‐shifts of the H−C5Fuc, by X‐ray diffraction analysis of glycomimetics co‐crystallized with E‐selectin as well as by isothermal titration calorimetry. Furthermore, the electron‐withdrawing character of the CF3‐group beneficially influences the pharmacokinetic properties of sLex mimetics. Thus, acid‐stability, a prerequisite for gastrointestinal stability, could be substantially improved.