Issue 14, 2023

 Ir(iv) and Ir(iii) in situ transition promotes ROS generation for eradicating multidrug-resistant bacterial infection

Abstract

Whether reactive oxygen species are a consequence or a cause of antibacterial activity is not fully known. A glutathione (GSH)-mediated oxidative defense mechanism is an important factor against bacterial infection. Reactive oxygen species (ROS) storm-mediated bacterial death by depleting GSH is also considered an effective strategy. Therefore, we designed and synthesized hybrid iridium ruthenium oxide nanozymes (IrRuOx NPs), where IrRuOx NPs alternately consume GSH through double redox electron pair auto-valent cycles, while an IrRuOx NP-mediated Fenton-like reaction occurs to realize an ROS storm, which in turn mediates lipid peroxidation to promote bacterial death. The results showed that IrRuOx NPs can effectively inhibit and kill Gram-positive and Gram-negative bacteria in vitro, and can be used as broad-spectrum antibiotics. Importantly, the wound and sepsis models of MRSA infection confirmed the efficient antibacterial activity of IrRuOx NPs in vivo. Accordingly, this study provides a new idea for metal oxide hybrid nanoenzymes and their biological functions.

Graphical abstract: Ir(iv) and Ir(iii) in situ transition promotes ROS generation for eradicating multidrug-resistant bacterial infection

Supplementary files

Article information

Article type
Paper
Submitted
07 Apr 2023
Accepted
18 May 2023
First published
15 Jun 2023

Biomater. Sci., 2023,11, 4960-4971

Ir(IV) and Ir(III) in situ transition promotes ROS generation for eradicating multidrug-resistant bacterial infection

X. Zhu, Y. Yang, X. Chen, G. Ye, J. Liu and Y. Liu, Biomater. Sci., 2023, 11, 4960 DOI: 10.1039/D3BM00579H

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