An Enzyme Mimicking Dendritic Platinum–Iron Oxide Catalyzes the Production of Reactive Oxygen Species.

Feng, Feng; Liu, Yajing; Yao, Li; Wang, Xiuyu

Creatine catalase (CAT), superoxide dismutase (SOD), and NADPH oxidase (NOX) are natural enzyme molecules that play a crucial role in regulating reactive oxygen species (ROS) in biological systems. They maintain life activities and eliminate pathogens by catalyzing various biochemical reactions. However, natural enzymes have some drawbacks in ROS control; they may lose activity under certain environmental conditions, such as high temperatures, extreme pH values, or the presence of organic solvents, which affects their stability and reliability in different applications. The construction of artificial nanozymes is an emerging technology that could probably solve the problems existing in natural enzymes. This study introduces a type of dendritic platinum–iron oxide (DPIO) nanozyme. The unique dendritic structure of this DPIO nanozyme provides a high surface area-to-volume ratio, and the addition of a platinum layer on the surface offers stability, thereby effectively enhancing the catalytic efficiency of producing reactive oxygen species (ROS). The combination of iron-based Fenton reactions and platinum-based Fenton-like reactions in this DPIO nanozyme drastically improves ROS catalytic efficiency. This artificial nanozyme has a high level of biosafety and displays no cytotoxicity. The development of DPIO nanozymes marks a significant advancement in the technology of artificial nanozymes.

REACTIVE oxygen species; SYNTHETIC enzymes; NADPH oxidase; ORGANIC solvents; TECHNOLOGICAL innovations; PLATINUM

Catalysts (2073-4344), 2024, Vol 14, Issue 12, p858

2073-4344

Academic Journal

10.3390/catal14120858