Proximity Effect-Mediated DNA Self-Assembly for the Highly Specific Detection of Glioma-Derived Exosomes by Combining Multiple Exosomal Surface Markers

微泡 外体 CD63 胶质瘤 化学 DNA 核酸 检出限 细胞生物学 杂交探针 小RNA 分子生物学 连接器 生物标志物 癌症研究 诊断生物标志物 计算生物学 生物物理学 功能(生物学) 循环肿瘤细胞 适体
作者
Xueying Zhao,Jinjin Li,Yi Hao,Xiao-Lan Gao,Yifu Wang,Leiliang He,Yamin Xiong
出处
期刊:ACS Sensors [American Chemical Society]
标识
DOI:10.1021/acssensors.5c00951
摘要

Exosomes that can cross the blood-brain barrier are promising biomarkers for glioma diagnosis, yet highly specific and sensitive detection of glioma-derived exosomes remains a challenge. Herein, a strategy of "proximity effect-mediated DNA self-assembly" has been proposed to achieve highly specific, sensitive, and flexible detection of glioma-derived exosomes. Exosomes are separated and enriched by CD63 aptamer-modified nanomagnetic beads; a pair of proximity probes simultaneously binds to PDPN and EGFR on the surface of exosomes, which will induce proximity effect-mediated DNA self-assembly with linker probes and the subsequent invertase-labeled signal amplification probes, thus converting one target exosome in the presence of multiple invertases. Benefiting from the dual signal amplification from nucleic acid self-assembly and enzymatic reaction, highly sensitive and flexible detection of glioma-derived exosomes can be achieved by using a portable blood glucose meter, with a limit of detection of 3 × 104 particles/mL. Of note, the combined detection of multiple exosomal surface markers (CD63/PDPN/EGFR) based on proximity hybridization significantly improves the specificity of glioma-derived exosome detection, enabling efficient discrimination of glioma cells from normal microglia and various other tumor cells. Furthermore, the level of CD63/PDPN/EGFR-positive exosomes in glioma patients was significantly higher than that of healthy subjects (P < 0.0001); compared with the CD63/PDPN- and CD63/EGFR-positive exosomes (AUCs of 0.852 and 0.895), the detection of CD63/PDPN/EGFR-based exosomes provides a remarkably accurate diagnosis of glioma (AUC of 0.98). Additionally, this strategy can be easily extended to the detection of other disease-derived exosomes just by replacing the corresponding recognition units.
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