Mechanism of degrader-targeted protein ubiquitinability | Science Advances

Small-molecule degraders of disease-driving proteins offer a clinically proven modality with enhanced therapeutic efficacy and potential to tackle previously undrugged targets. Stable and long-lived degrader-mediated ternary complexes drive fast and profound target degradation; however, the mechanisms by which they affect target ubiquitination remain elusive. Here, we show cryo-EM structures of the VHL Cullin 2 RING E3 ligase with the degrader MZ1 directing target protein Brd4 ^BD2 toward UBE2R1-ubiquitin, and Lys ⁴⁵⁶ at optimal positioning for nucleophilic attack. In vitro ubiquitination and mass spectrometry illuminate a patch of favorably ubiquitinable lysines on one face of Brd4 ^BD2 , with cellular degradation and ubiquitinomics confirming the importance of Lys ⁴⁵⁶ and nearby Lys ³⁶⁸ /Lys ⁴⁴⁵ , identifying the “ubiquitination zone.” Our results demonstrate the proficiency of MZ1 in positioning the substrate for catalysis, the favorability of Brd4 ^BD2 for ubiquitination by UBE2R1, and the flexibility of CRL2 for capturing suboptimal lysines. We propose a model for ubiquitinability of degrader-recruited targets, providing a mechanistic blueprint for further rational drug design.