Synergistic Reinforcing of Immunogenic Cell Death and Transforming Tumor‐Associated Macrophages Via a Multifunctional Cascade Bioreactor for Optimizing Cancer Immunotherapy
Cong Huang, Bingquan Lin, Chuyao Chen, Huaiming Wang, Xiaosheng Lin, Jiamin Liu, Qingfan Ren, Jia Tao, Peng Zhao, Yikai Xu
Abstract
Abstract Immunogenic cell death (ICD) has aroused widespread attention because it can reconstruct a tumor microenvironment and activate antitumor immunity. This study proposes a two‐way enhancement of ICD based on a CaO 2 @CuS–MnO 2 @HA (CCMH) nanocomposite to overcome the insufficient damage‐associated molecular patterns (DAMPs) of conventional ICD‐inducers. The near‐infrared (NIR) irradiation (1064 nm) of CuS nanoparticles generates 1 O 2 through photodynamic therapy (PDT) to trigger ICD, and it also damages the Ca 2+ buffer function of mitochondria. Additionally, CaO 2 nanoparticles react with H 2 O to produce a large amount of O 2 and Ca 2+ , which respectively lead to enhanced PDT and Ca 2+ overload during mitochondrial damage, thereby triggering a robust ICD activation. Moreover, oxidative‐damaged mitochondrial DNA, induced by PDT and released from tumor cells, reprograms the immunosuppressive tumor microenvironment by transforming tumor‐associated macrophages to the M1 subphenotype. This study shows that CCMH with NIR‐II irradiation can elicit adequate DAMPs and an active tumor‐immune microenvironment for both 4T1 and CT26 tumor models. Combining this method with an immune checkpoint blockade can realize an improved immunotherapy efficacy and long‐term protection effect for body.