Abstract
Therapeutic modalities targeting pathogenic proteins are the gold standard of treatment for multiple disease indications. Unfortunately, a significant portion of these proteins are considered “undruggable” by standard small molecule-based approaches, largely due to their disordered nature and instability. Designing functional peptides to undruggable targets, either as standalone binders or fusions to effector domains, thus presents a unique opportunity for therapeutic intervention. In this work, we adapt recent models for contrastive language-image pre-training (CLIP) to devise a unified, sequence-based framework to design target-specific peptides. Furthermore, by leveraging known experimental binding proteins as scaffolds, we create a streamlined inference pipeline, termed Cut&CLIP, that efficiently selects peptides for downstream screening. Finally, we experimentally fuse candidate peptides to E3 ubiquitin ligase domains and demonstrate robust intracellular degradation of pathogenic protein targets in human cells, motivating further development of our technology for future clinical translation.
Competing Interest Statement
P.C., K.P, and S.B. are listed as inventors for U.S. Provisional Application No. 63/344,820, entitled: "Contrastive Learning for Peptide Based Degrader Design and Uses Thereof." P.C. is listed as an inventor for U.S. Provisional Application No. 63/032,513, entitled: "Minimal Peptide Fusions for Targeted Intracellular Degradation." P.C. is a co-founder of UbiquiTx, Inc. K.P. and S.B. are consultants for UbiquiTx, Inc.
