Abstract
Singlet oxygen (1 O2 ) has a potent anticancer effect, but photosensitized generation of 1 O2 is inhibited by tumor hypoxia and limited light penetration depth. Despite the potential of chemodynamic therapy (CDT) to circumvent these issues by exploration of 1 O2 -producing catalysts, engineering efficient CDT agents is still a formidable challenge since most catalysts require specific pH to function and become inactivated upon chelation by glutathione (GSH). Herein, we present a catalytic microenvironment-tailored nanoreactor (CMTN), constructed by encapsulating MoO42- catalyst and alkaline sodium carbonate within liposomes, which offers a favorable pH condition for MoO42- -catalyzed generation of 1 O2 from H2 O2 and protects MoO42- from GSH chelation owing to the impermeability of liposomal lipid membrane to ions and GSH. H2 O2 and 1 O2 can freely cross the liposomal membrane, allowing CMTN with a built-in NIR-II ratiometric fluorescent 1 O2 sensor to achieve monitored tumor CDT.
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