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金属-酚醛网络与钯纳米颗粒协同氧化酶样和光热特性,根除口腔多微生物生物膜相关感染。

Metal-Phenolic Network with Pd Nanoparticle Nodes Synergizes Oxidase-Like and Photothermal Properties to Eradicate Oral Polymicrobial Biofilm-Associated Infections.

机构信息

Joint Centre of Translational Medicine, the First Affiliated Hospital of Wenzhou Medical University, Wenzhou Institute, University of Chinese Academy of Sciences, Wenzhou, Zhejiang, 325001, China.

Center of Materials Science and Optoelectronics Engineering, College of Materials Science and Opto-Electronic Technology, University of Chinese Academy of Sciences, Beijing, 100049, China.

出版信息

Adv Mater. 2024 Feb;36(7):e2306376. doi: 10.1002/adma.202306376. Epub 2023 Dec 7.

DOI:10.1002/adma.202306376
PMID:37944993
Abstract

Designing an effective treatment strategy to combat oral diseases caused by complex polymicrobial biofilms remains a great challenge. Herein, a series of metal-phenolic network with Pd nanoparticle nodes using polyphenols as stabilizers and reducing agents is constructed. Among them, sulfonated lignin-Pd (SLS-Pd) with ultrafine size palladium nanoparticles and broadband near infrared absorption exhibit excellent oxidase-like activity and stable photothermal effect. In vitro experiments demonstrate that the superoxide radical generated by SLS-Pd oxidase-like activity exhibits selective antibacterial effects, while its photothermal effect induced hyperthermia exhibits potent antifungal properties. This difference is further elucidated by RNA-sequencing analysis and all-atom simulation. Moreover, the SLS-Pd-mediated synergistic antimicrobial system exhibits remarkable efficacy in combating various biofilms and polymicrobial biofilms. By establishing a root canal model and an oropharyngeal candidiasis model, the feasibility of the synergistic antimicrobial system in treating oral biofilm-related infections is further validated. This system provides a promising therapeutic approach for polymicrobial biofilm-associated infections in the oral cavity.

摘要

设计一种有效的治疗策略来对抗由复杂多微生物生物膜引起的口腔疾病仍然是一个巨大的挑战。在此,构建了一系列使用多酚作为稳定剂和还原剂的具有 Pd 纳米颗粒节点的金属-酚醛网络。其中,具有超细微钯纳米颗粒和宽带近红外吸收的磺化木质素-Pd(SLS-Pd)表现出优异的过氧化物酶样活性和稳定的光热效应。体外实验表明,SLS-Pd 过氧化物酶样活性产生的超氧自由基表现出选择性的抗菌作用,而其光热效应诱导的高热表现出强大的抗真菌特性。这一差异通过 RNA 测序分析和全原子模拟得到进一步阐明。此外,SLS-Pd 介导的协同抗菌系统在对抗各种生物膜和多微生物生物膜方面表现出显著的疗效。通过建立根管模型和口腔念珠菌病模型,进一步验证了协同抗菌系统治疗口腔生物膜相关感染的可行性。该系统为治疗口腔多微生物生物膜相关感染提供了一种有前途的治疗方法。

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