Abstract
Chemodynamic therapy (CDT) is emerged as a novel and promising tumor therapy by using the powerful reactive oxygen species (ROS) to kill cancer cells. However, the current CDT is remarkably inhibited due to insufficient H2O2 supply and over-expression of glutathione (GSH) in the tumor microenvironment (TME). Herein, a biodegradable self-supplying H2O2 nano-enzyme of CuO2@CaP with a GSH-consumption effect is designed for cascade enhanced CDT to overcome the problem of H2O2 deficiency and GSH overexpression. In this design, CuO2@CaP is gradually degraded to Ca2+, Cu2+, and H2O2 in acidic TME, resulting in synergistically enhanced CDT owing to the efficient self-supplied H2O2 and GSH-depletion and Ca2+ overload therapy. Interestingly, the faster degradation of CuO2@CaP and promoted production rate of •OH are further achieved after triggering with ultrasound (US). And, the US-enhanced CDT and Ca2+ overload synergistic antitumor therapy is successfully achieved in vivo. These findings provide a promising strategy for designing biodegradable nano-enzymes with self-supplying H2O2 and GSH consumption for US-mediated CDT.
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