Targeted degradation of cell surface proteins through endocytosis triggered by cell-penetrating peptide-small molecule conjugates

Targeted degradation of membrane-associated proteins, which constitute a crucial class of drug targets implicated in diverse disease pathologies, has garnered considerable attention in chemical biology and drug discovery recently. Taking advantage of the endosomal entrapment of cell-penetrating peptides (CPPs) in delivering bioactive macromolecules, we successfully construct a CPP-based platform for specific degradation of cell surface proteins by conjugation of target protein-binding small molecules (SMs) with different CPPs, resulting in the formation of CPP-mediated lysosome-targeting chimeras (CPPTACs). Through the endo-lysosomal pathway, CPPTACs exhibit a remarkable ability to degrade clinically significant plasma membrane proteins, including PD-L1, CAIX, and CB2R. In contrast to LYTACs and similar technologies, CPPTACs drive the degradation of targets in a manner independent of specific lysosome-shuttling receptors, thus providing a widely applicable strategy for plasma membrane protein degradation, regardless of the cell types. Additionally, simpler structural design and broader therapeutic window for CPPTACs are expected since CPPs-mediated endocytosis and lysosomal degradation do not necessitate the three-component binding model typically required by other heterobifunctional degraders. Overall, consisting of small molecules and biocompatible cell-penetrating peptides, CPPTACs developed in this study represent a simple, adaptable, and effective approach for selectively degrading cell surface proteins in various cellular contexts with potential for application in both biological research and therapeutic interventions. Various cell-penetrating peptides (CPPs) can trigger endocytosis independently of specific lysosome-targeting receptors (LTRs). Here, the authors present CPP-mediated lysosome-targeting chimeras (CPPTACs), a versatile platform that enables the efficient degradation of cell surface proteins without dependence on specific LTRs.