A biodegradable hollow nanoagent enables a boosted chemodynamic therapy by simultaneous autophagy inhibition and macrophage reeducation

Abstract

Various therapeutic strategies, including chemotherapy, radiotherapy, photothermal therapy (PTT), and immunotherapy have been applied in cancer therapy. However, intrinsic or acquired therapeutic resistance is the main obstacle that attenuates the treatment effect of the therapeutic reagents used in these strategies. Studies have shown that autophagy and immunosuppressive tumor-associated macrophages (TAMs), as internal and external resistance mechanisms, would significantly compromise the effectiveness of cancer treatment. Therefore, selectively blocking the autophagy and repolarizing TAMs to anti-tumor phenotype (M1) will be effective for cancer treatments. Herein, an ambidextrous strategy that simultaneously inhibited autophagy and reeducated TAMs to promote anti-tumor therapy meditated by the iron-based nanocarriers was reported. The released Fe (II) ion reacted with the released artemisinin (ART) to produce ROS for chemodynamic therapy (CDT). The chloroquine (CQ) was used to inhibit autophagy in cancer cells and reset TAMs from the M2 phenotype to the M1 phenotype, eliminating the resistance of cancer cells and realizing an augmented therapeutic effect. This work provides a promising way for augmenting therapeutic efficiency by simultaneously interfering with two critical therapeutic resistance mechanisms.