One-pot synthesis of a self-reinforcing cascade bioreactor for combined photodynamic/chemodynamic/starvation therapy

Abstract The combination of photodynamic therapy (PDT) and chemodynamic therapy (CDT) have attracted a great deal of interest, but tumor hypoxia and glutathione (GSH) overproduction still limit their further applications. Herein, an intelligent reactive oxygen species (ROS) nanogenerator Ce6/GOx@ZIF-8/PDA@MnO2 (denoted as CGZPM; Ce6, GOx, ZIF-8, PDA, MnO2 are chlorin e6, glucose oxidase, zeolitic imidazolate framework-8, polydopamine and manganese dioxide respectively) with O2-generating and GSH-/glucose-depleting abilities was constructed by a facile and green one-pot method. After intake by tumor cells, the outer MnO2 was rapidly degraded by the acidic pH, and the overexpression of hydrogen peroxide (H2O2) and GSH with abundant Mn2+ and O2 produced would eventually achieve multifunctionality. The Mn2+ acted as an ideal Fenton-like agent and magnetic resonance (MR) imaging contrast agent, while the O2 promoted the PDT via hypoxia relief and facilitated the intratumoral glucose oxidation by GOx for starvation therapy (ST). Benefiting from the GOx-based glycolysis process, sufficient H2O2 was generated to improve the CDT efficacy through Mn2+-mediated Fenton-like reaction. Notably, MnO2 and PDA could decrease the tumor antioxidant activity by consuming GSH, resulting in remarkably enhanced PDT/CDT. Such a novel cascade bioreactor with tumor microenvironment (TME)-modulating capability opens new opportunities for ROS-based and combinational treatment paradigms.