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Enhanced Antimicrobial Efficiency of Gold Nanoclusters via Improved Sonodynamic Activity and Out-Membrane Crossing Capacity

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posted on 2024-11-30, 05:15 authored by Le Hong, Wen Li, Manlin Qi, Weinan Dong, Chengyu Liu, Meiqi Li, Yuan Zhong, Zhennan Wu, Chunyan Li, Xue Bai, Lin Wang
Antimicrobial sonodynamic therapy (SDT) holds great promise in clinical practice regarding its noninvasiveness, high safety profile, and absence of resistance concern. However, exploring high-efficiency sonodynamic sensitizers is slow-moving and remains a big challenge. We, herein, employed gold nanoclusters (Au NCs) as a novel class of sonodynamic sensitizers, demonstrating notable antimicrobial efficacy in treating infected wounds. Specifically, l-arginine (Arg) and 6-azido-2-thiothymidine (ATT) cocapped Au NCs featured enhanced structural rigidity, suppressing nonradiative relaxation of excited electrons and achieving a reactive oxygen species (ROS) yield exceeding 45%. Moreover, the modification of ATT-Au NCs by Arg imparted amino acid-like properties to the Au NCs, while the ultrasound (US) up-regulates the expression of OmpF porins in E. coli. This synergy resulted in a burst of ROS production within the bacterial cells, ultimately leading to a four-order-of-magnitude reduction in microbial viability.

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