自主式主动光热纳米游泳者用于体内深层消除生物膜。

Self-Propelled Active Photothermal Nanoswimmer for Deep-Layered Elimination of Biofilm In Vivo.

机构信息

Laboratory of Chemical Biology and State Key Laboratory of Rare Earth Resource Utilization, Changchun Institute of Applied Chemistry, Chinese Academy of Sciences, Changchun, Jilin 130022, China.

University of Science and Technology of China, Hefei, Anhui 230026, China.

出版信息

Nano Lett. 2020 Oct 14;20(10):7350-7358. doi: 10.1021/acs.nanolett.0c02767. Epub 2020 Sep 4.

DOI:10.1021/acs.nanolett.0c02767

PMID:32856923

Abstract

Increasing penetration of antibacterial agents into biofilm is a promising strategy for improvement of therapeutic effect and slowdown of the progression of antibiotic resistance. Herein, we design a near-infrared (NIR) light-driven nanoswimmer (HSMV). Under NIR light irradiation, HSMV performs efficient self-propulsion and penetrates into the biofilm within 5 min due to photothermal conversion of asymmetrically distributed AuNPs. The localized thermal (∼45 °C) and thermal-triggered release of vancomycin (Van) leads to an efficient combination of photothermal therapy and chemotherapy in one system. The active motion of HSMV increases the effective distance of photothermal therapy (PTT) and also improves the therapeutic index of the antibiotic, resulting in superior biofilm removal rate (>90%) in vitro. Notably, HSMV can eliminate biofilms grown in vivo under 10 min of laser irradiation without damage to healthy tissues. This work may shed light on therapeutic strategies for in vivo treatment of biofilm-associated infections.

摘要

增加抗菌剂进入生物膜的渗透能力是提高治疗效果和减缓抗生素耐药性进展的一种有前途的策略。在此，我们设计了一种近红外（NIR）光驱动的纳米游泳者（HSMV）。在 NIR 光照射下，由于不对称分布的 AuNPs 的光热转换，HSMV 能够高效地进行自推进，并在 5 分钟内穿透生物膜。局部热（约 45°C）和热触发万古霉素（Van）的释放导致光热治疗和化学治疗在一个系统中有效结合。HSMV 的主动运动增加了光热治疗（PTT）的有效距离，也提高了抗生素的治疗指数，从而在体外实现了更高的生物膜去除率（＞90%）。值得注意的是，HSMV 可以在 10 分钟的激光照射下消除体内生长的生物膜，而不会对健康组织造成损伤。这项工作可能为体内治疗生物膜相关感染的治疗策略提供了启示。

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自主式主动光热纳米游泳者用于体内深层消除生物膜。

Self-Propelled Active Photothermal Nanoswimmer for Deep-Layered Elimination of Biofilm In Vivo.

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