Effective Antibacterial Activity of Degradable Copper-Doped Phosphate-Based Glass Nanozymes

Copper-containing antimicrobials are highly valuable in the field of medical disinfectants owing to their well-known high antimicrobial efficacy. Artificially synthesized nanozymes which can increase the level of reactive oxygen species (ROS) in the bacterial system have become research hotspots. Herein, we describe the design and fabrication of degradable Cu-doped phosphate-based glass (Cu-PBG) nanozyme, which can achieve excellent antibacterial effects against Gram-positive and Gram-negative bacteria. The antibacterial mechanism is based on the generation of ROS storm and the release of copper. It behaves like a peroxidase in wounds which are acidic and exerts lethal oxidative stress on bacteria via catalyzing the decomposition of H2O2 into hydroxyl radicals ((OH)-O-center dot). Quite different from any other reported nanozymes, the Cu-PBG is intrinsically degradable due to its phosphate glass nature. It gradually degrades and releases copper ions in a physiological environment, which further enhances the inhibition efficiency. Satisfactory antibacterial effects are verified both in vitro and in vivo. Being biodegradable, the prepared Cu-PBG exhibits excellent in vivo biocompatibility and does not cause any adverse effects caused by its long-time residence time in living organisms. Collectively, these results indicate that the Cu-PBG nanozyme could be used as an efficient copper-containing antimicrobial with great potential for clinical translation.

Automated summary

Copper-containing antimicrobials are highly valuable in medical disinfectants due to their high antimicrobial efficacy. The Cu-PBG nanozyme exhibits excellent antibacterial effects against both Gram-positive and Gram-negative bacteria by generating a ROS storm and releasing copper ions. Being intrinsically degradable, Cu-PBG gradually degrades in vivo and releases copper ions, showing excellent biocompatibility and potential for clinical translation.