Abstract
The largest obstacle that impedes the successful clinical use of anticancer nanodrugs lies in their unsatisfactory therapeutic performance even if multiple drug treatments are applied, which may cause tumor relapse and drug resistance. Therefore, it is challenging to develop effective nanodrugs that can eradicate tumors with only single injection. Herein, we construct a metabolic nanomodulator (denoted as ISM liposome), where the phototherapeutic dye IR825-NH2, the chemodrug shikonin, and the mitochondrial respiration inhibitor metformin are encapsulated, to closely synergize phototherapy, chemotherapy, and immunotherapy via the laser-triggered on-demand metabolism regulation for realizing robust anticancer potency after only single injection and irradiation. Upon near-infrared laser irradiation, IR825-NH2 can generate reactive oxygen species and mild heat to enable the phototherapeutic cytotoxcity and thermoresponsive release of the loaded drugs. Then, cellular oxygen can be spared by the released metformin via metabolic modulation and be utilized by shikonin to further amplify the oxidative stress in cancer cells. More importantly, the ISM liposome-mediated photochemotherapy can subsequently elicit a strong immunogenic cell death (ICD) effect and sensitize the immunosupressive tumor to the ICD-induced immunotherapy, thereby achieving strong tumor inhibition and even eradication. The metabolic nanomodulator-based photochemotherapy-sensitized cancer immunotherapy may represent a new solution to fight against cancer.
Published Version
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call