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W3133611223 abstract "As next-generation artificial enzymes, nanozymes have shown great promise for tumor catalytic therapy. In particular, their peroxidase-like activity has been employed to catalyze hydrogen peroxide (H2O2) to produce highly toxic hydroxyl radicals (•OH) to kill tumor cells. However, limited by the low affinity between nanozymes with H2O2 and the low level of H2O2 in the tumor microenvironment, peroxidase nanozymes usually produced insufficient •OH to kill tumor cells for therapeutic purposes. Herein, we present a pyrite peroxidase nanozyme with ultrahigh H2O2 affinity, resulting in a 4144- and 3086-fold increase of catalytic activity compared with that of classical Fe3O4 nanozyme and natural horseradish peroxidase, respectively. We found that the pyrite nanozyme also possesses intrinsic glutathione oxidase-like activity, which catalyzes the oxidation of reduced glutathione accompanied by H2O2 generation. Thus, the dual-activity pyrite nanozyme constitutes a self-cascade platform to generate abundant •OH and deplete reduced glutathione, which induces apoptosis as well as ferroptosis of tumor cells. Consequently, it killed apoptosis-resistant tumor cells harboring KRAS mutation by inducing ferroptosis. The pyrite nanozyme also exhibited favorable tumor-specific cytotoxicity and biodegradability to ensure its biosafety. These results indicate that the high-performance pyrite nanozyme is an effective therapeutic reagent and may aid the development of nanozyme-based tumor catalytic therapy." @default.
W3133611223 created "2021-03-15" @default.
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W3133611223 date "2021-03-11" @default.
W3133611223 modified "2023-10-16" @default.
W3133611223 title "High-Performance Self-Cascade Pyrite Nanozymes for Apoptosis–Ferroptosis Synergistic Tumor Therapy" @default.
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W3133611223 doi "https://doi.org/10.1021/acsnano.1c01248" @default.
W3133611223 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/33705663" @default.
W3133611223 hasPublicationYear "2021" @default.
W3133611223 type Work @default.
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