The high glutathione (GSH) content in tumor cells strongly affects the efficiency of chemodynamic therapy (CDT). Despite devoted efforts, it still remains a formidable challenge for manufacturing a tumor-specific CDT with rapid and thorough depletion of GSH. Herein, a multistage GSH-consuming and tumor-specific CDT is presented. By consuming the reserved GSH and inhibiting both the raw materials and energy supply of GSH synthesis in cancer cells, it achieves highly potent GSH exhaustion. Our used glycolysis inhibitor cuts off the specific glycolysis of tumor cells to increase the sensitivity to CDT. Furthermore, the starvation effect of glycolysis inhibitor can stimulate the protective mode of normal cells. Since the glycolysis inhibitor and nanocarrier are responsive to tumor microenvironment, this makes CDT more selective to tumor cells. Our work not only fabricates nanomedicine with GSH exhausted function for highly potent CDT but also uses metabolic differences to achieve tumor-specific therapy.
Keywords: glutathione; glycolysis; metabolic; reactive oxygen species; tumor-specific.