Reversing Bacterial Resistance to Gold Nanoparticles by Size Modulation

Overview

Journal Nano Lett

Publisher American Chemical Society

Specialty Biotechnology

Date 2021 Feb 22

PMID 33616397

Citations 14

Authors

Wenshu Zheng

Yuexiao Jia

Yuyun Zhao

Jiangjiang Zhang

Yangzhouyun Xie

Le Wang

Xiaohui Zhao

Xiaoyan Liu

Rongbing Tang

Wenwen Chen

Xingyu Jiang

Affiliations

Soon will be listed here.

Abstract

One major frustration in developing antibiotics is that bacteria can quickly develop resistance that would require an entirely new cycle of research and clinical testing to overcome. Although plenty of bactericidal nanomaterials have been developed against increasingly severe superbugs, few reports have studied the resistance to these nanomaterials. Herein, we show that antibacterial 4,6-diamino-2-pyrimidine thiol (DAPT)-capped gold nanoparticles (AuDAPTs) can induce a 16-fold increased minimum inhibitory concentration (MIC) of only after very long term exposure (183 days), without developing cross-resistance to commercialized antibiotics. Strikingly, we recovered the bactericidal activities of AuDAPTs to the resistant strain by tuning the sizes of AuDAPTs without employing new chemicals. Such slow, easy-to-handle resistance induced by AuDAPTs is unprecedented compared to traditional antibiotics or other nanomaterials. In addition to the novel antibacterial activities and biocompatibilities, our approach will accelerate the development of gold nanomaterial-based therapeutics against multi-drug-resistant (MDR) bacterial infections.

Citing Articles

Strategies for Overcoming Bacterial Resistance to Nanoparticles: A Systematic Review.

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Sampaio de Oliveira K, Leite M, Melo N, Lima L, Barbosa T, Carmo N Antibiotics (Basel). 2024; 13(11).

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Overcoming microbial resuscitation using stable ultrafine gold nanosystems.

Thakur A, Maroju P, Ganesan R, Ray Dutta J Nanoscale Adv. 2024; 6(7):1847-1852.

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Recent advances in nanoantibiotics against multidrug-resistant bacteria.

Li M, Liu Y, Gong Y, Yan X, Wang L, Zheng W Nanoscale Adv. 2023; 5(23):6278-6317.

PMID: 38024316 PMC: 10662204. DOI: 10.1039/d3na00530e.