Neighboring Effect-Initiated Supramolecular Nanocomplex with Sequential Infiltration as Irreversible Apoptosis Inducer for Synergetic Chemo-Immunotherapy.

Abstract

Chemotherapy-based combination regimens are recommended as first-line treatment for colorectal cancer. However, multidrug resistance (MDR) and limited drug infiltration in tumor microenvironment remain critical challenges. Herein, a pH/redox dual activated supramolecular DAS@CD-OxPt (IV) nanoparticles (NPs) via host-guest molecular recognition to achieve relay drugs delivery of active oxaliplatin (OxPt (IV)) and Src inhibitor dasatinib (DAS) between tumor cells is developed. DAS@CD-OxPt (IV) NPs exhibit prolonged circulation in the blood and intra-tumoral retention. Triggered by the endo/lysosome (pH 5.0), flexible DAS@CD-OxPt (IV) NPs exhibited proton-driven in situ assembly to form nanofiber in tumor cells. Dual chemotherapeutic agents released from DAS@CD-OxPt (IV) NPs synergistically cause irreversible DNA damage by blocking p53-mediated DNA repair. Supramolecular nanofibers can further serve as the "ammunition depot" to continuously release drugs from dying cells and transport them into neighboring tumor cells, leading to domino-like cell death and enhanced immunogenicity. Furthermore, DAS@CD-OxPt (IV) NPs combined with immune checkpoint blockade (ICB) therapy strikingly suppress CT26 tumor growth and pulmonary metastasis.