Charged Molecular Glue Discovery Enabled by Targeted Degron Display

Small molecules that induce protein interactions hold tremendous potential as new medicines, as probes for molecular pathways, and as tools for agriculture. Explosive growth of targeted protein degradation (TPD) drug development has spurred renewed interest in proximity-inducing molecules and especially Molecular Glue Degraders (MGDs). These compounds catalyze destruction of disease-causing proteins by reshaping protein surfaces and promoting cooperative binding between ubiquitylating enzymes and target proteins. MGD discovery for pre-defined targets is a major challenge in contemporary drug discovery. The field is limited by a lack of approaches that can exploit charged ligand-binding pockets, thus excluding a major fraction of ubiquitin ligases (E3s) that evolved to recognize exceedingly common acidic and basic degrons. Here we solve these important chemical challenges through chemocentric MGD discovery of ZZ1, a BET-family protein degrader and a prodrug of a negatively charged glue (c-Glue). ZZ1 activation unmasks a sulfinic acid moiety that binds the modular GID/CTLH ubiquitin ligase complex via a basic pocket in its YPEL5 subunit. YPEL5 is a CRBN structural homolog and an essential non-Cullin ubiquitin ligase cofactor expressed in cancers of the bone marrow. These findings demonstrate a previously unrecognized capacity of YPEL5 to recruit GID/CTLH substrates, and they provide a powerful strategy to discover c-Glues that induce proximity to ubiquitin ligases with similarly desirable properties.