The rational design of nanozymes for imaging-monitored cancer therapy
Abstract
Nanozymes are nanoscale materials that display enzyme-like properties, which have been improved to eliminate the limitations of natural enzymes and further broaden the use of conventional artificial enzymes. In the last decade, the research and exploration of nanozymes have attracted considerable attention in the chemical and biological fields, especially in the fields of biomedicine and tumor therapy. To date, plenty of nanozymes have been developed with the single or multiple activities of natural enzymes, including peroxidase (POD), catalase (CAT), superoxide dismutase (SOD), glucose oxidase (GOx). Tumor-characteristic metabolites can be transformed into toxic substances under the catalysis of nanozymes to kill tumor cells. However, the therapeutic effects of nanozymes greatly depend on their catalytic activity, which displays a lot of differences in vitro and in vivo. Moreover, the complex tumor environment (low pH, high H2O2 and GSH concentration, hypoxia, etc.) plays an important role in affecting their catalytic activity. Besides, the uncontrollable catalysis of nanozymes may lead to the destruction of normal tissues. To solve these problems, researchers have exploited several imaging methods to monitor the reaction processes during catalysis, including optical imaging methods (fluorescence and chemiluminescence), photoacoustic imaging, and magnetic resonance imaging. In this review, we have summarized the development of tumor treatment using nanozymes in recent years, along with the current imaging tools to monitor the catalyzing activity of nanozymes. Representative examples have been elaborated on to show the current development of these imaging tools. We hope this review will provide some instructive perspectives on the development of nanozymes and promote the applications of imaging-guided tumor therapeutics.
- This article is part of the themed collections: Nanozymes and Journal of Materials Chemistry B Recent Review Articles