摘要:SummaryImmune cold tumor characterized by low immunogenicity, insufficient and exhausted tumor-infiltrating lymphocytes, and immunosuppressive microenvironment is the main bottleneck responsible for low patient response rate of immune checkpoint blockade. Here, we developed biosynthetic functional vesicles (BFVs) to convert immune cold into hot through overcoming hypoxia, inducing immunogenic cell death, and immune checkpoint inhibition. The BFVs present PD1 and tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) on the surface, whereas load catalase into their inner core. The TRAIL can specifically induce immunogenic death of cancer cells to initiate immune response, which is further synergistically strengthened by blocking PD1/PDL1 checkpoint signal through ectogenic PD1 proteins on BFVs. The catalase can produce O2to overcome tumor hypoxia, in turn to increase infiltration of effector T cells while deplete immunosuppressive cells in tumor. The BFVs elicit robust and systematic antitumor immunity, as demonstrated by significant regression of tumor growth, prevention of abscopal tumors, and excellent inhibition of lung metastasis.Graphical AbstractDisplay OmittedHighlights•BFVs integrated PD1, TRAIL, and Catalase to convert immune cold tumor into hot•TRAIL induces cancer cell immunogenic death, ectogenic PD1 blocks checkpoint signal•Catalase reduces TME hypoxia to enhance effector T cell infiltration and activation•BFVs boost systematic antitumor immunity and achieve long-term immune memoryImmunity; Immune Response; Cell Biology
