Abstract 981: Degradation of immuno-oncology targets via proprietary PROTAC platform integrating DNA-encoded library technology and rational drug design

Since the first small molecule proteolysis targeting chimera (PROTAC) was reported about a decade ago, great progress has been made in the field of targeted protein degradation. Specially designed, small molecules can recruit the ubiquitin-proteasome system (UPS) to tag a protein of interest (POI) for degradation. Based on the ability to knock down a therapeutic POI (instead of inhibiting the target protein activity), this new modality has emerged as a paradigm-shifting approach and opened new avenues for small molecule drug discovery. At Xios Therapeutics, we have applied targeted protein degradation to a number of immuno-oncology (IO) drug targets and we present here the strategy and lessons learned from building our PROTAC platform in collaboration with X-Chem. Specifically, we have leveraged a vertical integration of DNA-encoded library screening (DEL), structural biology, medicinal chemistry, biochemical binding assays and cellular biomarker readouts for the rapid identification of cell potent degraders. We exemplify a modular, ‘fit-for-purpose’ PROTAC matrix that allows for rapid exploration of optimal E3 ligase-binders conjugated to a POI-binder using either existing or novel ligands identified via DEL. We delineate the structure-activity/property relationship (SAR and SPR) analysis of linker with VHL- and CRBN-based binders for a promising IO target achieving potent protein degradation (>90% degradation and nM DC50 potency) and pathway inhibition in cancer cells. Notably, our affinity-based screening of chemical libraries of unprecedented size (~200 billion molecules) with a priori knowledge of the vector point of attachment from the DNA barcode directly informs the rational design of bifunctional PROTAC molecules. In conclusion, our integrated approach allows us to find new, unexplored compound binding sites for both E3 ligases- and POI-binders that can be utilized by the PROTAC platform to create potent selective degraders and to access targets that have previously been considered undruggable. Citation Format: Jannik N. Andersen, Andrew J. McRiner, Lynette A. Fouser, Junyi Zhang, Shilpi Arora, Michael Cordeau, Ying Zhang, John Cuozzo, Michael Briskin, Matt Clark, Diala Ezzeddine. Degradation of immuno-oncology targets via proprietary PROTAC platform integrating DNA-encoded library technology and rational drug design [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2019; 2019 Mar 29-Apr 3; Atlanta, GA. Philadelphia (PA): AACR; Cancer Res 2019;79(13 Suppl):Abstract nr 981.