Laser-Activatable CuS Nanodots to Treat Multidrug-Resistant Bacteria and Release Copper Ion to Accelerate Healing of Infected Chronic Nonhealing Wounds

光热治疗 伤口愈合 体内 金黄色葡萄球菌 微生物学 表皮葡萄球菌 材料科学 血管生成 多重耐药 抗生素 医学 细菌 癌症研究 生物 免疫学 纳米技术 生物技术 遗传学
作者
Yue Qiao,Ping Yuan,Hongbo Zhang,Bo Zhou,Fengyong Liu,Yinhui Yu,Tingting Xie,Wanli Li,Danni Zhong,Yuezhou Zhang,Ke Yao,Hélder A. Santos,Min Zhou
出处
期刊:ACS Applied Materials & Interfaces [American Chemical Society]
卷期号:11 (4): 3809-3822 被引量:195
标识
DOI:10.1021/acsami.8b21766
摘要

Chronic nonhealing wounds have imposed serious challenges in the clinical practice, especially for the patients infected with multidrug-resistant microbes. Herein, we developed an ultrasmall copper sulfide (covellite) nanodots (CuS NDs) based dual functional nanosystem to cure multidrug-resistant bacteria-infected chronic nonhealing wound. The nanosystem could eradicate multidrug-resistant bacteria and expedite wound healing simultaneously owing to the photothermal effect and remote control of copper-ion release. The antibacterial results indicated that the combination treatment of photothermal CuS NDs with photothermal effect initiated a strong antibacterial effect for drug-resistant pathogens including methicillin-resistant Staphylococcus aureus (MRSA) and extended-spectrum β-lactamase Escherichia coli both in vitro and in vivo. Meanwhile, the released Cu2+ could promote fibroblast cell migration and endothelial cell angiogenesis, thus accelerating wound-healing effects. In MRSA-infected diabetic mice model, the nanosystem exhibited synergistic wound healing effect of infectious wounds in vivo and demonstrated negligible toxicity and nonspecific damage to major organs. The combination of ultrasmall CuS NDs with photothermal therapy displayed enhanced therapeutic efficacy for chronic nonhealing wound in multidrug-resistant bacterial infections, which may represent a promising class of antibacterial strategy for clinical translation.
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