计算机科学
DNA折纸
免疫系统
人机交互
过程(计算)
自然杀伤细胞
细胞
抗体
DNA
神经科学
体外
纳米技术
体内
自然(考古学)
计算生物学
癌症治疗
机制(生物学)
生物
作者
Yueyang Sun,Li Xu,Yiying Qian,Xiewei Xiong,Li Li
出处
期刊:ACS Nano
[American Chemical Society]
日期:2026-03-27
标识
DOI:10.1021/acsnano.5c17463
摘要
Cell engagers have emerged as a promising approach for cancer immunotherapy, yet their efficacy is often limited by structural constraints in antibody valency and spatial configuration. Here, we present a DNA origami-based platform for the precise spatial organization of antibodies, enabling the construction of tailored multivalent cell engagers to enhance antitumor immunity. By modulating the composition, valency, and spatial arrangement of antibodies on a single DNA origami scaffold at the single-molecule level, we developed two types of cell engagers, T cell engagers and natural killer cell engagers, that effectively activate immune cells and improve tumor specificity. In vitro studies demonstrated that both engagers elicited specific and effective immune responses against epidermal growth factor receptor (EGFR)-expressing tumors. Furthermore, in vivo studies using murine solid tumor models validated the efficacy of both engagers in inhibiting tumor growth. This study demonstrates the potential of DNA origami as a versatile and programmable platform for engineering precision immunotherapies and highlights its utility for targeted tumor eradication.
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