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Interplay of halogen bonding and solvation in protein–ligand binding

Maria Luisa Verteramo, Majda Misini Ignjatović, Rohit Kumar, Sven Wernersson, Vilhelm Ekberg, Johan Wallerstein, Göran Carlström, Veronika Chadimová, Hakon Leffler, Fredrik R. Zetterberg, Derek T. Logan, Ulf Ryde, Mikael Akke, Ulf J. Nilsson

2024iScience22 citationsDOIOpen Access PDF

Abstract

Halogen bonding is increasingly utilized in efforts to achieve high affinity and selectivity of molecules designed to bind proteins, making it paramount to understand the relationship between structure, dynamics, and thermodynamic driving forces. We present a detailed analysis addressing this problem using a series of protein-ligand complexes involving single halogen substitutions - F, Cl, Br, and I - and nearly identical structures. Isothermal titration calorimetry reveals an increasingly favorable binding enthalpy from F to I that correlates with the halogen size and σ-hole electropositive character, but is partially counteracted by unfavorable entropy, which is constant from F to Cl and Br, but worse for I. Consequently, the binding free energy is roughly equal for Cl, Br, and I. QM and solvation-free-energy calculations reflect an intricate balance between halogen bonding, hydrogen bonds, and solvation. These advances have the potential to aid future drug design initiatives involving halogenated compounds.

Topics & Concepts

SolvationIsothermal titration calorimetryHalogen bondChemistryEnthalpyImplicit solvationHalogenHydrogen bondMoleculeComputational chemistryLigand (biochemistry)Binding energySupramolecular chemistryCrystallographyPhysical chemistryChemical physicsThermodynamicsOrganic chemistryAlkylPhysicsReceptorNuclear physicsBiochemistryCrystallography and molecular interactionsComputational Drug Discovery MethodsProtein Structure and Dynamics