Issue 2, 2024, Issue in Progress

Design and application of histidine-functionalized ZnCr-LDH nanozyme for promoting bacteria-infected wound healing

Abstract

Excessive use of antibiotics can lead to an increase in antibiotic-resistant bacteria, which makes it a serious health threat. Therefore, developing new materials with antibacterial activity, such as nanozymes, has gained considerable attention. Reactive oxygen species (ROS) produced by nanozymes have rapid and effective antibacterial efficacy. Here, histidine (His) modified ZnCr layered double hydroxide (LDH) was synthesized inspired by the natural enzyme, and the enzyme-like activity of His/ZnCr-LDH was tested using a colorimetric method. Then, we developed an acid-enhanced antibacterial method based on the high peroxidase-like activity of His/ZnCr-LDH, and its ROS-generating capability in the presence of glucose oxidase (GOx) and glucose (Glu) as a source of hydrogen peroxide (H2O2). Gluconic acid (GA), the main product of the GOx reaction, provides an acidic environment and promotes ROS generation. The mentioned strategy shows high antibacterial activity at a low minimum inhibitory concentration (MIC) which represents the potential of His/ZnCr-LDH for effective bacterial elimination (3.5 μg mL−1 for S. aureus and 6 μg mL−1 for E. coli). In addition, animal experiments illustrated that the His/ZnCr-LDH can successfully boost the curing of infected wounds. The outcomes indicate that amino acid modified LDHs offer a new strategy for effective bacterial removal in different medical applications.

Graphical abstract: Design and application of histidine-functionalized ZnCr-LDH nanozyme for promoting bacteria-infected wound healing

Article information

Article type
Paper
Submitted
29 Oct 2023
Accepted
04 Dec 2023
First published
03 Jan 2024
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2024,14, 1195-1206

Design and application of histidine-functionalized ZnCr-LDH nanozyme for promoting bacteria-infected wound healing

S. Dadakhani, G. Dehghan, A. Khataee and A. Erfanparast, RSC Adv., 2024, 14, 1195 DOI: 10.1039/D3RA07364E

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