Abstract

AbstractAdvances in adaptive immunity have greatly contributed to the development of cancer immunotherapy. However, its over‐low efficacy and insufficient invasion of immune cells in the tumor tissue, and safety problems caused by cytokine storm, have seriously impeded further clinical application for solid tumor immunotherapy. Notably, the immune microenvironment of the lungs is naturally enriched with alveolar macrophages (AMs). Herein, we introduce a novel nebulized magnetothermal immunotherapy strategy to treat orthotopic lung cancer by using magnetothermal nanomaterial (Zn−CoFe2O4@Zn−MnFe2O4−PEG, named ZCMP), which can release iron ions via an acid/thermal‐catalytic reaction to maximize the use of lung‘s immune environment through the cascade activations of AMs and natural killer (NK) cells. Nebulized administration greatly enhance drug bioavailability by localized drug accumulation at the lesion site. Upon mild magnetic hyperthermia, the released iron ions catalyze endogenous H2O2 decomposition to produce reactive oxygen species (ROS), which triggers the M1 polarization of AMs, and the resultant inflammatory cytokine IFN‐β, IL‐1β and IL‐15 releases to activate c‐Jun, STAT5 and GZMB related signaling pathways, promoting NK cells proliferation and activation. This innovative strategy optimally utilizes the lung‘s immune environment and shows excellent immunotherapeutic outcomes against orthotopic lung cancer.

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