Emerging engineered nanozymes: current status and future perspectives in cancer treatments

Abstract

Composite nanozymes are composed of enzymes with similar or different catalytic capabilities and have higher catalytic activity than a single enzyme. In recent years, composite nanozymes have emerged as novel nanomaterial platforms for multiple applications in various research fields, where they are used to produce oxygen, consume glutathione, or produce toxic reactive oxygen species (ROS) for cancer therapy. The therapeutic approach using composite nanozymes is known as chemo-dynamic therapy (CDT). Some composite nanozymes also show special photothermal conversion effects, enabling them to be combined with pioneering cancer treatments, such as photodynamic therapy (PDT), photothermal therapy (PTT) and sonodynamic therapy (SDT), and enhance the anti-cancer effects. In this study, the classification and catalytic performances of composite nanozymes are reviewed, along with their advantages and synthesis methods. Furthermore, the applications of composite nanozymes in the treatment of cancers are emphasized, and the prospective challenges in the future are discussed.