Ternary Complex‐Templated Dynamic Combinatorial Chemistry for the Selection and Identification of Homo‐PROTACs

Abstract

AbstractDynamic combinatorial chemistry (DCC) leverages a reversible reaction to generate compound libraries from constituting building blocks under thermodynamic control. The position of this equilibrium can be biased by addition of a target macromolecule towards enrichment of bound ligands. While DCC has been applied to select ligands for a single target protein, its application to identifying chimeric molecules inducing proximity between two proteins is unprecedented. In this proof‐of‐concept study, we develop a DCC approach to select bifunctional proteolysis targeting chimeras (PROTACs) based on their ability to stabilize the ternary complex. We focus on VHL‐targeting Homo‐PROTACs as model system, and show that the formation of a VHL2 : Homo‐PROTAC ternary complex reversibly assembled using thiol‐disulfide exchange chemistry leads to amplification of potent VHL Homo‐PROTACs with degradation activities which correlated well with their biophysical ability to dimerize VHL. Ternary complex templated dynamic combinatorial libraries allowed identification of novel Homo‐PROTAC degraders. We anticipate future applications of ternary‐complex directed DCC to early PROTAC screenings and expansion to other proximity‐inducing modalities beyond PROTACs.