PROTAC-mediated degradation of Bruton's tyrosine kinase is inhibited by covalent binding

The impact of covalent binding on PROTAC-Mediated degradation of BTK was investigated through the preparation of both covalent binding and reversible binding PROTACs derived from the covalent BTK inhibitor ibrutinib. It was determined that a covalent binding PROTAC inhibited BTK degradation despite evidence of target engagement, while BTK degradation was observed with a reversible binding PROTAC. These observations were consistently found when PROTACs that were able to recruit either IAP or cereblon E3 ligases were employed. Proteomics analysis determined that the use of a covalently bound PROTAC did not result in the degradation of covalently bound targets, while degradation was observed for some reversibly bound targets. This observation highlights the importance of catalysis for successful PROTAC-Mediated degradation and highlights a potential caveat for the use of covalent target binders in PROTAC design

A two-faced selectivity solution to target SMARCA2 for cancer therapy

Two new studies exploring PROTAC-mediated degradation of SMARCA2 for cancer therapy solve an apparently intractable selectivity challenge with SMARCA4 by utilising the requirement for a productive ternary complex between the protein, PROTAC and ligase complex

Activity‐directed synthesis of inhibitors of the p53/hDM2 protein‐protein interaction

Protein‐protein interactions (PPIs) provide a rich source of potential targets for drug discovery and biomedical science research. However, the identification of structural‐diverse starting points for discovery of PPI inhibitors remains a significant challenge. Activity‐directed synthesis (ADS), a function‐driven discovery approach, was harnessed in the discovery of the p53/hDM2 PPI. Over two rounds of ADS, 346 microscale reactions were performed, with prioritisation on the basis of the activity of the resulting product mixtures. Four distinct and novel series of PPI inhibitors were discovered that, through biophysical characterisation, were shown to have promising ligand efficiencies. It was thus shown that ADS can facilitate ligand discovery for a target that does not have a defined small‐molecule binding site, and can provide distinctive starting points for the discovery of PPI inhibitors