Polyvalent folate receptor-targeting chimeras for degradation of membrane proteins.

Lysosome-targeting chimeras (LYTACs) represent a revolutionary targeted protein degradation technology. However, the advancement of LYTACs faces substantial challenges due to the limited diversity of lysosome-trafficking receptors. In this study, we identified folate receptor α (FRα) as a new class of lysosome-trafficking receptors capable of facilitating the degradation of membrane proteins. Leveraging a polyvalent crosslinking strategy, we developed FRα-targeting chimeras (FRTACs), including enhanced green fluorescent protein-targeting FR-Ctx and PD-L1-targeting FR-Atz. The optimized FRTACs demonstrated subnanomolar potency in eliminating cell-surface targets, with efficacy dependent on both FRα expression and lysosomal activity. Specifically, FR-Ctx inhibited cancer cell proliferation, while FR-Atz enhanced T cell-mediated cytotoxicity against tumor cells. FR-Atz exhibited robust PD-L1 degradation efficiency in vivo and elicited tumor-specific immune responses by reprogramming the tumor microenvironment from an immunosuppressive to an immunostimulatory state in both RM-1 and humanized B16F10 mouse models. These findings establish FRTACs as a promising platform for the design of tumor-targeting LYTACs.