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Homogenous Magneto-Fluorescent Nanosensor for Tumor-Derived Exosome Isolation and Analysis

Bo Li, Weilun Pan, Chunchen Liu, Jingyun Guo, Jianlei Shen, Junjie Feng, Tingting Luo, Bo Situ, Ye Zhang, Taixue An, Chunzuan Xu, Wancheng Zheng, Lei Zheng

2020ACS Sensors83 citationsDOI

Abstract

Tumor-derived exosomes carrying unique surface proteins have shown great promise as novel biomarkers for liquid biopsies. However, point-of-care analysis for tumor-derived exosomes in the blood with low-cost and easy processing is still challenging. Herein, we develop an integrated approach, homogenous magneto-fluorescent exosome (hMFEX) nanosensor, for rapid and on-site tumor-derived exosomes analysis. Tumor-derived exosomes are captured immunomagnetically, which further initiates the aptamer-triggered assembly of DNA three-way junctions in homogenous solution containing aggregation-induced emission luminogens and graphene oxide, resulting in an amplified fluorescence signal. By integrating magnetic isolation and enhanced fluorescence measurement, the hMFEX nanosensor detects tumor-derived exosomes in the dynamic range spanning 5 orders of magnitude with high specificity, and the limit of detection is 6.56 × 104 particles/μL. Analyzing tumor-derived exosomes in limited volume plasma from breast cancer patients demonstrates the excellent clinical diagnostic efficacy of the hMFEX nanosensor. This study provides new insights into the point-of-care testing of tumor-derived exosomes for cancer diagnostics.

Topics & Concepts

NanosensorMicrovesiclesExosomeFluorescenceNanotechnologyDetection limitIsolation (microbiology)ChemistryMaterials scienceBiophysicsBiologyBioinformaticsBiochemistrymicroRNAChromatographyPhysicsOpticsGeneExtracellular vesicles in diseaseAdvanced biosensing and bioanalysis techniquesGold and Silver Nanoparticles Synthesis and Applications
Homogenous Magneto-Fluorescent Nanosensor for Tumor-Derived Exosome Isolation and Analysis | Litcius