Radionuclides for cancer theranostic have confronted problems such as limitation in real-time visualization and unsatisfied therapeutic effect sacrificed by the nonspecific distribution. Nanoscale metal-organic frameworks (nMOFs) have been widely used...
Chemodynamic therapy (CDT) is a highly
promising tumor treatment
modality that uses the Fenton reaction to convert intracellular hydrogen
peroxide (H2O2) into cytotoxic hydroxyl groups
(•OH). However, the therapeutic effects of CDT have
been restricted by weak acidic pH values, insufficient H2O2 levels, and high glutathione (GSH) concentrations in
the tumor microenvironment (TME). In this study, to construct PCN-224-Pt/GOD,
porphyrin-based metal–organic framework nanoparticles (PCN-224)
were used as the carrier to load Pt and glucose oxidase (GOD). The
surface of PCN-224-Pt/GOD was covered with manganese dioxide (MnO2) to fabricate the multifunctional composite nanoparticles
PCN-224-Pt/GOD@MnO2 (P–P/GOD@Mn). P–P/GOD@Mn
was used to increase H2O2 levels and to decrease
GSH levels for combined CDT and starvation therapy. As a result, we
developed P–P/GOD@Mn nanoparticles (diameter, approximately
280 nm) with favorable size and biocompatibility. Under simulated
TME conditions, P–P/GOD@Mn nanoparticles could catalyze H2O2 to generate cytotoxic hydroxyl radicals (•OH), consume glutathione (GSH), and decompose H2O2 to generate oxygen (O2). Cellular
toxicity assay results showed that P–P/GOD@Mn killed MCF-7
cells in the TME, with a rate of 77%. The results of tumor-bearing
mouse experiments proved that P–P/GOD@Mn nanoparticles could
significantly suppress tumor cell growth, which shows the great potential
of this entity in CDT and its possibility in bimodal cancer therapy.
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