Li Bin, Wang Wei, Zhao Lu, Yan Dingyuan, Li Xiaoxue, Gao Qiuxia, Zheng Judun, Zhou Sitong, Lai Shanshan, Feng Yi, Zhang Jie, Jiang Hang, Long Chengmin, Gan Wenjun, Chen Xiaodong, Wang Dong, Tang Ben Zhong, Liao Yuhui
Department of Burn Surgery & Department of Clinical Laboratory, The First People's Hospital of Foshan, Foshan 528000, Guangdong, China.
Molecular Diagnosis and Treatment Center for Infectious Diseases, Dermatology Hospital of Southern Medical University, Guangzhou 510091, Guangdong, China.
ACS Nano. 2023 Mar 14;17(5):4601-4618. doi: 10.1021/acsnano.2c10694. Epub 2023 Feb 24.
Injudicious or inappropriate use of antibiotics has led to the prevalence of drug-resistant bacteria, posing a huge menace to global health. Here, a self-assembled aggregation-induced emission (AIE) nanosphere (AIE-PEG NPs) that simultaneously possesses near-infrared region II (NIR-II) fluorescence emissive, photothermal, and photodynamic properties is prepared using a multifunctional AIE luminogen (AIE-4COOH). The AIE-PEG NPs were encapsulated with teicoplanin (Tei) and ammonium bicarbonate (AB) into lipid nanovesicles to form a laser-activated "nanobomb" (AIE-Tei@AB NVs) for the multimodal theranostics of drug-resistant bacterial infections. experiments validate that the "nanobomb" enables high-performance NIR-II fluorescence, infrared thermal, and ultrasound (AB decomposition during the photothermal process to produce numerous CO/NH bubbles, which is an efficient ultrasound contrast agent) imaging of multidrug-resistant bacteria-infected foci after intravenous administration of AIE-Tei@AB NVs followed by 660 nm laser stimulation. The highly efficient photothermal and photodynamic features of AIE-Tei@AB NVs, combined with the excellent pharmacological property of rapidly released Tei during bubble generation and NV disintegration, collectively promote broad-spectrum eradication of three clinically isolated multidrug-resistant bacteria strains and rapid healing of infected wounds. This multimodal imaging-guided synergistic therapeutic strategy can be extended for the theranostics of superbugs.
抗生素的不合理或不恰当使用导致了耐药菌的流行,对全球健康构成了巨大威胁。在此,使用多功能聚集诱导发光(AIE)发光团(AIE-4COOH)制备了一种同时具有近红外二区(NIR-II)荧光发射、光热和光动力特性的自组装聚集诱导发光纳米球(AIE-PEG NPs)。将替考拉宁(Tei)和碳酸氢铵(AB)包裹在AIE-PEG NPs中形成脂质纳米囊泡,构建用于耐药细菌感染多模态诊疗的激光激活“纳米炸弹”(AIE-Tei@AB NVs)。实验证实,静脉注射AIE-Tei@AB NVs后,经660 nm激光刺激,该“纳米炸弹”能够对耐多药细菌感染病灶进行高性能的NIR-II荧光、红外热成像以及超声成像(光热过程中AB分解产生大量CO/NH气泡,是一种高效的超声造影剂)。AIE-Tei@AB NVs高效的光热和光动力特性,结合气泡产生和纳米囊泡崩解过程中Tei快速释放的优异药理特性,共同促进了对三种临床分离的耐多药细菌菌株的广谱根除以及感染伤口的快速愈合。这种多模态成像引导的协同治疗策略可扩展用于超级细菌的诊疗。
