Abstract
PROteolysis TArgeting Chimeras (PROTACs) are an emerging class of promising therapeutic modalities that selectively degrade intracellular proteins of interest by hijacking the ubiquitin-proteasome system. However, the lack of techniques to efficiently transport these degraders to targeted cells and consequently the potential toxicity of PROTACs limit their clinical applications. Here, a strategy of nanoengineered PROTACs, that is, Nano-PROTACs, is reported, which improves the bioavailability of PROTACs and maximizes their capacity to therapeutically degrade intracellular oncogenic proteins for tumor therapy. The Nano-PROTACs are developed by encapsulating PROTACs in glutathione (GSH)-responsive poly(disulfide amide) polymeric (PDSA) nanoparticles and show that ARV@PDSA Nano-PROTAC, nanoengineered BRD4 degrader ARV-771, improves BRD4 protein degradation and decreases the downstream oncogene c-Myc expression. Benefiting from the GSH-scavenging ability to amply the c-Myc-related ferroptosis and cell cycle arrest, this ARV@PDSA Nano-PROTACs strategy shows superior anti-tumor efficacy with a low dose administration and good biocompatibility in vivo. The findings reveal the potential of the Nano-PROTACs strategy to treat a broad range of diseases by dismantling associated pathogenic proteins.