材料科学
级联
DNA
酶
纳米技术
癌症研究
计算生物学
组合化学
生物化学
化学工程
生物
化学
工程类
作者
Danyu Wang,Xin Zhou,Mengyu Huang,Jie Duan,Yue Qiu,Yi Hua,Yang Wang,Huimin Xue,Jiali Zhang,Qiuxia Yang,Hua Gao,Zhenzhen Guo,Kaixiang Zhang
标识
DOI:10.1021/acsami.4c09835
摘要
Cascade-enzyme reaction systems have emerged as promising tools for treating malignant tumors by efficiently converting nutrients into toxic substances. However, the challenges of poor localized retention capacity and utilization of highly active enzymes often result in extratumoral toxicity and reduced therapeutic efficacy. In this study, we introduced a cell membrane-DNA nanoanchor (DNANA) with a spatially confined cascade enzyme for in vivo tumor therapy. The DNANAs are constructed using a polyvalent cholesterol-labeled DNA triangular prism, ensuring high stability in cell membrane attachment. Glucose oxidase (GOx) and horseradish peroxidase (HRP), both modified with streptavidin, are precisely confined to biotin-labeled DNANAs. Upon intratumoral injection, DNANA enzymes efficiently colonize the tumor site through cellular membrane engineering strategies, significantly reducing off-target enzyme leakage and the associated risks of extratumoral toxicity. Furthermore, DNANA enzymes demonstrated effective cancer therapy in vitro and in vivo by depleting glucose and producing highly cytotoxic hydroxyl radicals in the vicinity of tumor cells. This membrane-engineered cascade-enzyme reaction system presents a conceptual approach to tumor treatment.
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