Wash-Free Isolation and Quantification of Tumor-Derived Exosomes via In Situ-Formed Hydrogel

微泡 原位 分离(微生物学) 化学 自愈水凝胶 生物医学工程 材料科学 纳米技术 生物物理学 医学 生物 高分子化学 生物化学 小RNA 微生物学 有机化学 基因
作者
Hongqiang Wang,Jiayu Sun,Qingqing Zou,Bin Du,Hui Liu,Yanan Luan,Xin Wang,Xiaohai Yang,Qing Wang,Kemin Wang
出处
期刊:ACS Sensors [American Chemical Society]
卷期号:10 (6): 4136-4144 被引量:1
标识
DOI:10.1021/acssensors.5c00204
摘要

The isolation and detection of exosomes as tumor markers are of vital importance for the early diagnosis, therapeutic monitoring, and mechanistic studies of tumors. Here, exosomes derived from breast cancer cells were chosen as model targets, and a wash-free, enzyme-free, handheld mini centrifugation method based on hydrogels was developed to effectively isolate and detect breast cancer exosomes. Dual aptamers (CD63-T1 and EpCAM-T2) were employed to specifically recognize and capture breast cancer exosomes. This specific recognition triggered the formation of hybridization chain reaction (HCR) nanostructures on the captured exosomes through the interaction of hairpin 1 and the alginate complex (H1-Alg) and hairpin 2 (H2-Cy3). The interaction of Ca2+ and alginate enabled the in situ formation of a hydrogel on the exosome surface. Subsequent low-speed centrifugation using a handheld mini centrifuge facilitated the efficient isolation of the exosomes, thereby eliminating the need for tedious washing steps. Utilizing the classical chelation reaction of ethylene diamine tetraacetic acid (EDTA) with Ca2+, the hydrogel can be rapidly cleaved for enzyme-free release of exosomes. The method demonstrated excellent capture and release efficiencies of approximately 85% and 98%, respectively, for specific cancerous exosomes. Notably, the exosomes isolated by the hydrogel system retained excellent biological activity, making them suitable for further analysis and potential applications. Meanwhile, the highly sensitive detection of breast cancer exosomes based on this strategy could also be achieved with a lower limit of detection as low as 3.2 × 103 particles/mL. This work provides a novel and cost-effective strategy for the effective isolation and detection of tumor-derived exosomes, which can help to promote the subsequent application of exosomes in research.
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