Reactive oxygen species (ROS), as a category of highly reactive molecules, are attractive for eliminating tumor cells . However, the intrinsic tumor microenvironment (TME) always compromises treatment efficacy. In another aspect, silk fibroin (SF), as a category of natural biomacromolecules, is highly promising for synthesis of metallic nanocrystals via biomineralization. As a proof-of-concept study, AuPt bimetallic nanozyme derived from bioinspired crystallization of chloroauric acid and chloroplatinic acid was facilely developed in the presence of silk fibroin (SF). Antitumor effects caused by the as-synthesized AuPt@SF (APS) nanozyme were demonstrated in 4T1 tumor cells and xenograft tumor models . APS nanozyme can decompose glucose to constantly supply HO and deplete intracellular glutathione (GSH). APS nanozyme can simultaneously convert adsorbed O and endogenic HO into superoxide radicals (O) and hydroxyl radical (OH), respectively, upon highly efficient catalytic reaction. Subsequently, these cytotoxic ROS cause irreversible damage to the cell membrane, nucleic acid and mitochondria of tumors. Upon fluorescence/photoacoustic (FL/PA)-imaging guidance, remarkable tumor damage based on the current nanoplatform was confirmed . The objective of our investigation is to supply more useful insights on the development of SF-based nanocatalysts, which are specifically responsive to TME for extremely efficient tumor theranostics.
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| http://dx.doi.org/10.7150/thno.50486 | DOI Listing |
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