具有协同抗菌活性的碳点的设计、合成与应用

Design, Synthesis, and Application of Carbon Dots With Synergistic Antibacterial Activity.

作者信息

Qie Xingwang, Zan Minghui, Gui Ping, Chen Hongyi, Wang Jingkai, Lin Kaicheng, Mei Qian, Ge Mingfeng, Zhang Zhiqiang, Tang Yuguo, Dong Wen-Fei, Song Yizhi

机构信息

CAS Key Laboratory of Bio-Medical Diagnostics, Suzhou Institute of Biomedical Engineering and Technology, Chinese Academy of Sciences, Suzhou, China.

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

出版信息

Front Bioeng Biotechnol. 2022 Jun 8;10:894100. doi: 10.3389/fbioe.2022.894100. eCollection 2022.

DOI:10.3389/fbioe.2022.894100

PMID:35757804

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9213729/

Abstract

The diversity of bacteria and their ability to acquire drug resistance lead to many challenges in traditional antibacterial methods. Photothermal therapies that convert light energy into localized physical heat to kill target microorganisms do not induce resistance and provide an alternative for antibacterial treatment. However, many photothermal materials cannot specifically target bacteria, which can lead to thermal damage to normal tissues, thus seriously affecting their biological applications. Here, we designed and synthesized bacteria-affinitive photothermal carbon dots (BAPTCDs) targeting MurD ligase that catalyzes the synthesis of peptidoglycan (PG) in bacteria. BAPTCDs presented specific recognition ability and excellent photothermal properties. BAPTCDs can bind to bacteria very tightly due to their chiral structure and inhibit enzyme activity by competing with D-glutamic acid to bind to MurD ligases, thus inhibiting the synthesis of bacterial walls. It also improves the accuracy of bacteria treatment by laser irradiation. Through the synergy of biochemical and physical effects, the material offers outstanding antibacterial effects and potentially contributes to tackling the spread of antibiotic resistance and facilitation of antibiotic stewardship.

摘要

细菌的多样性及其获得耐药性的能力给传统抗菌方法带来了诸多挑战。将光能转化为局部物理热以杀死目标微生物的光热疗法不会诱导耐药性，并为抗菌治疗提供了一种替代方法。然而，许多光热材料不能特异性地靶向细菌，这可能导致对正常组织的热损伤，从而严重影响其生物学应用。在此，我们设计并合成了靶向MurD连接酶的细菌亲和性光热碳点（BAPTCDs），该酶催化细菌中肽聚糖（PG）的合成。BAPTCDs具有特异性识别能力和优异的光热性能。由于其手性结构，BAPTCDs可以与细菌紧密结合，并通过与D-谷氨酸竞争结合MurD连接酶来抑制酶活性，从而抑制细菌细胞壁的合成。它还通过激光照射提高了细菌治疗的准确性。通过生化和物理效应的协同作用，该材料具有出色的抗菌效果，并可能有助于应对抗生素耐药性的传播和促进抗生素管理。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c488/9213729/2debf3830c5c/fbioe-10-894100-g001.jpg

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具有协同抗菌活性的碳点的设计、合成与应用

Design, Synthesis, and Application of Carbon Dots With Synergistic Antibacterial Activity.

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