Abstract:

Conditional protein degradation tags (degrons) are usually >100 amino acids long or are triggered by small molecules with substantial off-target effects, thwarting their use as specific modulators of endogenous protein levels. We developed a phage-assisted continuous evolution platform for molecular glue complexes (MG-PACE) and evolved a 36–amino acid zinc finger (ZF) degron (SD40) that binds the ubiquitin ligase substrate receptor cereblon in complex with PT-179, an orthogonal thalidomide derivative. Endogenous proteins tagged in-frame with SD40 using prime editing are degraded by otherwise inert PT-179. Cryo–electron microscopy structures of SD40 in complex with ligand-bound cereblon revealed mechanistic insights into the molecular basis of SD40’s activity and specificity. Our efforts establish a system for continuous evolution of molecular glue complexes and provide ZF tags that overcome shortcomings associated with existing degrons. Degron tags enable rapid and tunable control of target protein levels using small molecules. The ability to develop tags with desirable properties could expand their use in research and biotechnology. Mercer et al. report a continuous evolution platform for generating high-affinity molecular glue complexes. Using this approach, the authors evolved a compact zinc-finger degron that engages the protein cereblon in the presence of thalidomide derivatives that avoid endogenous proteins, unlike the immunomodulatory drugs commonly used to trigger protein degradation. This work provides a compact orthogonal degron tag and a powerful system with which to engineer molecular glue interactions using diverse small molecules. —Di Jiang Rapid evolution of molecular glue interfaces yields a compact small molecule–triggered degron with high target protein specificity.