循环肿瘤细胞
免疫分析
DNA
转移
检出限
癌症研究
肺癌
材料科学
同种类的
粘附
癌症
癌细胞
癌症转移
肿瘤进展
生物物理学
细胞粘附
双绞线
抗体
杂交探针
纳米技术
位阻效应
循环肿瘤DNA
分子生物学
间充质干细胞
细胞粘附分子
癌症生物标志物
肿瘤细胞
细胞
化学
生物医学工程
分子探针
荧光
生物标志物
灵敏度(控制系统)
液体活检
分子结合
作者
Pengjun Jiang,Ziqiang Fan,Yue Wang,Jian Li,Xiaoyue Kang,L L Feng,Piaopiao Chen
摘要
ABSTRACT Herein, we developed a DNA scaffold‐mediated Y‐shaped DNA nanomachine immunoassay system (DYN@IA) that enables a homogeneous electrochemical immunoassay for the simultaneous detection of epithelial and mesenchymal circulating tumor cells, applicable to early cancer diagnosis and monitoring. The double Y‐shaped DNA design facilitated the self‐assembly of metal ion‐mediated DNA nanomachines, forming stable and controllable functional nanomachines for the recognition of heterogeneous CTCs. Antigen‐antibody binding formed steric hindrance and exerted local tension on the DNA scaffolds through the biotin‐streptavidin system, triggering conformational changes in the double‐stranded DNA, and releasing Ag + and Hg 2+ . Finally, the practical validation was conducted using primary lung cancer cells (pre‐ and post‐metastasis) and the surface targets epithelial cell adhesion molecule and vimentin. The results indicated that simultaneous detection of different CTCs was achieved within 45 min, with a limit of detection down to the single‐cell level. Additionally, the method was successfully applied to 145 clinical samples for lung cancer early screening and identification of distant metastasis (achieving sensitivity and specificity of 88% and 96%), with results highly consistent with imaging findings and pathology diagnoses. The DYN@IA design outperformed conventional immunoassays by significantly shortening reaction time while improving sensitivity and signal‐to‐noise ratio, providing insights for tumor screening and monitoring.
科研通智能强力驱动
Strongly Powered by AbleSci AI