Ugi reaction-assisted assembly of covalent PROTACs against glutathione peroxidase 4.

Inducing cell ferroptosis by inactivating glutathione peroxidase 4 (GPX4) is a popular cancer treatment strategy. However, only few GPX4 inhibitors have been developed to date. PROteolysis Targeting Chimera (PROTAC) is a promising approach to provide new opportunities to overcome limitations of traditional therapeutics. Herein, a PROTAC-like activity-based probe PD-Q2 was first assembled using Ugi reaction, consisting of a known GPX4 inhibitor ML-162 homolog to the E3 ligase cereblon ligand-pomalidomide. Pull-down and immunoblotting analysis revealed that GPX4 was a covalent target of PD-Q2, but the degradation efficiency was weak. Therefore, a series of degraders was further synthesized by varying the linkers of heterofunctional PROTACs. Among these degraders, PD-4 and PD-P2 were found to promote effective GPX4 degradation via the ubiquitin-proteasome system and cause lipid ROS accumulation. PD-4 and PD-P2 showed potent inhibitory of colony formation and cell growth. Furthermore, we found that with pomalidomide, the degraders exhibit a high fluorescent signal that is mostly localized in the lysosome, which may affect the effectiveness of anti-cell proliferation. Overall, we provide GPX4 degraders for further exploring therapeutic potential of regulating ferroptosis.

Conjugation with glucagon like peptide-1 enables targeted protein degradation.

Lysosome-targeting chimeras (LYTACs) have emerged as a promising technique to extend the scope of targeted protein degradation to extracellular proteins, e.g., secreted proteins and membrane-anchored proteins. However, up to now, only a small number of lysosomal targeting receptors (LTRs), such as cation-independent mannose 6-phosphate receptor (CI-M6PR) and asialoglycoprotein receptor (ASGPR), were reported to build LYTACs for degradation of extracellular proteins. Therefore, it is important to explore more functionalized ligands for the relevant LTRs to expand the LYTAC framework. Herein, we demonstrate a new LTR ligand-glucagon like peptide 1 (GLP-1) based targeted degradation platform, termed GLP-1 receptor-targeting chimeras (GLP-1-LYTAC). GLP-1-LYTACs are formed by conjugating GLP-1 with targeted binder (such as antibody) through Click Chemistry, showing efficiently lysosomal degradation of both extracellular proteins (GFP and Neutravidin) as well as cell membrane proteins (EGFR and PD-L1). We believe that this novel GLP-1-LYTAC will open up a new dimension for targeted protein breakdown.