H2O2 Self-Supplying and GSH-Depleting Nanocatalyst for Copper Metabolism-Based Synergistic Chemodynamic Therapy and Chemotherapy
- PMID: 36809003
- DOI: 10.1021/acs.molpharmaceut.2c00937
H2O2 Self-Supplying and GSH-Depleting Nanocatalyst for Copper Metabolism-Based Synergistic Chemodynamic Therapy and Chemotherapy
Erratum in
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Correction to "H2O2 Self-Supplying and GSH-Depleting Nanocatalyst for Copper Metabolism-Based Synergistic Chemodynamic Therapy and Chemotherapy".Mol Pharm. 2024 Jan 1;21(1):370. doi: 10.1021/acs.molpharmaceut.3c01087. Epub 2023 Dec 14. Mol Pharm. 2024. PMID: 38095345 No abstract available.
Abstract
Chemodynamic therapy (CDT) that involves the use of Fenton catalysts to convert endogenous hydrogen peroxide (H2O2) to hydroxyl radicals (·OH) constitutes a promising strategy for cancer therapy; however, insufficient endogenous H2O2 and glutathione (GSH) overexpression render its efficiency unsatisfactory. Herein, we present an intelligent nanocatalyst that comprises copper peroxide nanodots and DOX-loaded mesoporous silica nanoparticles (MSNs) (DOX@MSN@CuO2) and can self-supply exogenous H2O2 and respond to specific tumor microenvironments (TME). Following endocytosis into tumor cells, DOX@MSN@CuO2 initially decomposes into Cu2+ and exogenous H2O2 in the weakly acidic TME. Subsequently, Cu2+ reacts with high GSH concentrations, thereby inducing GSH depletion and reducing Cu2+ to Cu+ Next, the generated Cu+ undergoes Fenton-like reactions with exogenous H2O2 to accelerate toxic ·OH production, which exhibits a rapid reaction rate and is responsible for tumor cell apoptosis, thereby enhancing CDT. Furthermore, the successful delivery of DOX from the MSNs achieves chemotherapy and CDT integration. Thus, this excellent strategy can resolve the problem of insufficient CDT efficacy due to limited H2O2 and GSH overexpression. Integrating H2O2 self-supply and GSH deletion enhances CDT, and DOX-induced chemotherapy endows DOX@MSN@CuO2 with effective tumor growth-inhibiting properties alongside minimal side effects in vivo.
Keywords: chemodynamic therapy; copper metabolism; exogenous hydrogen peroxide; synergistic therapy; tumor microenvironment.
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