化学
生物膜
鞣花酸
多酚
糖
生物化学
葡萄糖氧化酶
根龋
食品科学
牙本质
多糖
蔗糖
碳水化合物
牙菌斑
细菌
生物物理学
还原糖
抗氧化剂
超分子化学
变形链球菌
葡萄糖摄取
原花青素
原子力显微镜
作者
Bo Zhang,Qiuping Xie,Gonghua Hong,Mingyao Wang,Mei Chen,Xinxuan Zhou,Ruiyang Ren,Shijia Tang,Jie Fang,Zhihe Zhao,Junling Guo
出处
期刊:Nano Letters
[American Chemical Society]
日期:2026-02-02
卷期号:26 (5): 1715-1724
标识
DOI:10.1021/acs.nanolett.5c05438
摘要
High sugar intake in modern dietary patterns heightens the risk of dental caries, yet current preventives neither address dietary sugars nor effectively inhibit cariogenic biofilms. Herein, we introduce a fully biomass-derived enzyme–polyphenol ‘tooth nanoarmor’ that self-assembles from glucose oxidase (GOx) and ellagic acid, a natural phenolic molecule found in pomegranate peels and tree bark. Noncovalent interactions mediate the self-assembly, yielding a porous supramolecular phenolic framework, with nanochannels exhibiting remarkable bioadhesion and biostability. Adhering to tooth enamel, the ‘tooth nanoarmor’ continuously depletes glucose and generates bactericidal H2O2. The ‘tooth nanoarmor’ reduces bacterial viability by 59% and exopolysaccharide accumulation by 83% in vitro. It also exhibits a long-lasting preventive effect manifested by a 94% reduction in Keyes score and a 47% increase in dentin mineral density in vivo. Our findings highlight an effective biohybrid ‘tooth nanoarmor’ based on the natural self-assembly of proteins and polyphenols for long-lasting prevention of dental caries.
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