Chemoimmunotherapy has shown great potential to activate an immune response, but the immunosuppressive microenvironment associated with T cell exhaustion remains a challenge in cancer therapy. The proper immune-modulatory strategy to provoke a robust immune response is to simultaneously regulate T-cell exhaustion and infiltration. Here, a new kind of carrier-free nanoparticle is developed to simultaneously deliver chemotherapeutic drug (doxorubicin, DOX), cytolytic peptide (melittin, MPI), and anti-TOX small interfering RNA (thymocyte selection-associated high mobility group box protein, TOX) using a fluorinated prodrug strategy. In this way, the enhanced immunogenic cell death (ICD) induced by the combination of DOX and MPI can act as "offense" signaling to increase CD8+ T-cell infiltration, while the decreased TOX expression interfered with siTOX can serve as "defense" signaling to mitigate CD8+ T-cell exhaustion. As a result, the integration of DOX, MPI, and siTOX in such a bifunctional system produced a potent antitumor immune response in liver cancer and metastasis, making it a promising delivery platform and effective strategy for converting "cold" tumors into "hot" ones.
Keywords: T-cell exhaustion; carrier-free delivery platforms; fluorinated prodrugs; immunogenic cell death; immunotherapy.
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