近红外化学发光纳米探针用于深部成像和协同光热-一氧化氮治疗细菌感染。

Near-infrared chemiluminescent nanoprobes for deep imaging and synergistic photothermal-nitric-oxide therapy of bacterial infection.

机构信息

Precision Medicine Institute, The First Affiliated Hospital of Sun Yat-Sen University, Sun Yat-Sen University, Guangzhou 510080, China.

Institute of Molecular Aggregation Science, Tianjin University, Tianjin 300072, China; Department of Chemical and Biomolecular Engineering, National University of Singapore, Singapore 117585.

出版信息

Biomaterials. 2022 Sep;288:121693. doi: 10.1016/j.biomaterials.2022.121693. Epub 2022 Jul 31.

DOI:10.1016/j.biomaterials.2022.121693

PMID:35940949

Abstract

Bacterial infection is the leading cause of many serious inflammation diseases threatening human health. Existing theranostic options for bacterial infection are always complicated and unsatisfactory. There is an increasing interest in developing a more effective theranostic approach for the treatment of infections. Herein, we report the development of a near-infrared (NIR) chemiluminescent (CL) nanoparticles ALPBs containing luminol, AIE dye (TTDC), PCPDTBT, and nitric oxide (NO) donor (BNN6), which could achieve a deep CL imaging-guided photothermal-NO gas therapy of bacterial infection. After intravenous injection, ALPBs could be largely accumulated in the infected site and then activated by oversecreted reactive oxygen species (ROS) to produce near-infrared chemiluminescence, which could precisely track infection-induced local inflammation. Under the guidance of imaging, synergistic photothermal-NO therapy was further performed by 808 nm laser irradiation, leading to active bacterial eradication and rapid recovery of infected tissues. The utility of ALPBs provides a powerful and controllable "all-in-one" platform for combating bacterial infection.

摘要

细菌感染是威胁人类健康的许多严重炎症疾病的主要原因。现有的细菌感染治疗方法选择往往较为复杂，且效果并不理想。因此，人们越来越希望开发出更有效的治疗感染的方法。在这里，我们报告了一种近红外（NIR）化学发光（CL）纳米粒子 ALPBs 的开发，该粒子包含了发光氨、AIE 染料（TTDC）、PCPDTBT 和一氧化氮（NO）供体（BNN6），可实现对细菌感染的深层 CL 成像引导光热-NO 气体治疗。静脉注射后，ALPBs 可以大量聚集在感染部位，然后被过度分泌的活性氧（ROS）激活，产生近红外化学发光，从而可以精确追踪感染引起的局部炎症。在成像的指导下，通过 808nm 激光照射进一步进行协同光热-NO 治疗，导致细菌的有效清除和感染组织的快速恢复。ALPBs 的应用为对抗细菌感染提供了一个强大且可控的“一体化”平台。

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近红外化学发光纳米探针用于深部成像和协同光热-一氧化氮治疗细菌感染。

Near-infrared chemiluminescent nanoprobes for deep imaging and synergistic photothermal-nitric-oxide therapy of bacterial infection.

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