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用于pH响应性纳米酶介导细菌感染伤口愈合的可喷涂水凝胶

Sprayable Hydrogel for pH-Responsive Nanozyme-Derived Bacteria-Infected Wound Healing.

作者信息

Chao Furong, Cao Chengliang, Xu Yin, Gu Yunjie, Qu Xinyu, Wang Qian, Qu Lu Lu, Guo Yuxin, Dong Xiaochen

机构信息

School of Chemistry & Materials Science, Jiangsu Normal University, 101 Shanghai Road, Xuzhou 221116, P. R. China.

Key Laboratory of Flexible Electronics (KLOFE) & Institute of Advanced Materials (IAM) & School of Flexible Electronics (Future Technologies), Nanjing Tech University (NanjingTech), Nanjing 211816, P. R. China.

出版信息

ACS Appl Mater Interfaces. 2025 Jan 29;17(4):5921-5932. doi: 10.1021/acsami.4c18100. Epub 2025 Jan 20.

DOI:10.1021/acsami.4c18100
PMID:39831592
Abstract

Long-term inflammation and persistent bacterial infection are primary contributors to unhealed chronic wounds. The use of conventional antibiotics often leads to bacteria drug resistance, diminishing wound healing effectiveness. Nanozymes have become a promising alternative to antimicrobial materials due to their low cost, easy synthesis, and good stability. Herein, we develop a novel sprayable hydrogel based on carboxymethyl chitosan (CMCS) and oxidized hyaluronic acid (OHA), incorporating Au nanoparticle-carbon nitride (AuNPs-CN) nanozyme, glucose, and Mn for bacteria-infected wound healing. The hydrogel forms rapidly in situ upon spraying and gradually degrades on the wound area, releasing the AuNPs-CN nanozyme, which exhibits robust glucose oxidase-like (GOx-like) activity, initiating a comprehensive catalytic cascade through a Mn-mediated Fenton-like reaction that generates hydroxyl radicals (OH) to eliminate () and Methicillin-resistant (MRSA). Computational results indicate that interactions between AuNPs and g-CN maximize their synergistic effects in a heterojunction, improving O adsorption and facilitating electron-O interactions to optimize catalytic activity. Further experiments demonstrate that the hydrogel can rapidly cover wounds in situ, while CMCS promotes collagen production and fibroblast proliferation, offering a viable strategy for the healing of bacteria-infected wounds.

摘要

长期炎症和持续细菌感染是慢性伤口不愈合的主要原因。传统抗生素的使用常常导致细菌耐药性,降低伤口愈合效果。纳米酶因其成本低、易于合成和稳定性好,已成为抗菌材料的一种有前景的替代品。在此,我们基于羧甲基壳聚糖(CMCS)和氧化透明质酸(OHA)开发了一种新型可喷涂水凝胶,其包含金纳米颗粒-氮化碳(AuNPs-CN)纳米酶、葡萄糖和锰,用于细菌感染伤口的愈合。该水凝胶在喷涂后迅速原位形成,并在伤口区域逐渐降解,释放出具有强大类葡萄糖氧化酶(GOx样)活性的AuNPs-CN纳米酶,通过锰介导的类芬顿反应引发全面的催化级联反应,产生羟基自由基(OH)以消除()和耐甲氧西林金黄色葡萄球菌(MRSA)。计算结果表明,AuNPs与g-CN之间的相互作用在异质结中最大化了它们的协同效应,改善了O吸附并促进了电子-O相互作用以优化催化活性。进一步的实验表明,该水凝胶能够迅速原位覆盖伤口,同时CMCS促进胶原蛋白生成和成纤维细胞增殖,为细菌感染伤口的愈合提供了一种可行的策略。

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