Abstract
Engineered microvesicles (MVs) derived from tumor cells, which preserve tumor-specific characteristics, have been extensively investigated as delivery systems or vaccines for cancer therapy. However, the negatively charged phosphatidylserine (PS) exposed on the surface of tumor-derived MVs can induce immune tolerance, evade immune responses and dampen immunotherapy effectiveness. Here, we report a functional molecule (FaZn) that not only actively targets PS exposed on tumor cell surfaces, inducing membrane blebbing and producing PS-blocked tumor cell-derived MVs (FaZn-MVs) but also directly generates stable PS-blocked MVs in situ within tumors, serving as an antigen repository. FaZn-MVs not only activate T-cell-mediated immune responses akin to a prophylactic vaccine, demonstrating robust protection against tumors but also suppress tumor growth in mice and offer long-term immune surveillance. Furthermore, when FaZn-MVs are combined with programmed death ligand 1 (PD-L1) inhibitors, they enhance potent antitumor immune responses, leading to significant improvements in survival and immune memory. This work establishes a promising method for the in vivo generation of personalized tumor microvesicle vaccines with PS blockade, revealing a promising strategy for activating antitumor immune responses.
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