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      Microfluidic device (ExoChip) for on-chip isolation, quantification and characterization of circulating exosomes.

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          Abstract

          Membrane bound vesicles, including microvesicles and exosomes, are secreted by both normal and cancerous cells into the extracellular space and in blood circulation. These circulating extracellular vesicles (cirEVs) and exosomes in particular are recognized as a potential source of disease biomarkers. However, to exploit the use of circulatory exosomes as a biomarker, a rapid, high-throughput and reproducible method is required for their isolation and molecular analysis. We have developed a simple, low cost microfluidic-based platform to isolate cirEVs enriched in exosomes directly from blood serum allowing simultaneous capture and quantification of exosomes in a single device. To capture specific exosomes, we employed "ExoChip", a microfluidic device fabricated in polydimethylsiloxane (PDMS) and functionalized with antibodies against CD63, an antigen commonly overexpressed in exosomes. Subsequent staining with a fluorescent carbocyanine dye (DiO) that specifically labels the exosomes, we quantitated exosomes using a standard plate-reader. Ten independent ExoChip experiments performed using serum obtained from five pancreatic cancer patients and five healthy individuals revealed a statistically significant increase (2.34 ± 0.31 fold, p < 0.001) in exosomes captured in cancer patients when compared to healthy individuals. Exosomal origins of ExoChip immobilized vesicles were further confirmed using immuno-electron-microscopy and Western blotting. In addition, we demonstrate the ability of ExoChip to recover exosomes with intact RNA enabling profiling of exosomal-microRNAs through openarray analysis, which has potential applications in biomarker discovery. Based on our findings, ExoChip is a well suited platform to be used as an exosome-based diagnostic and research tool for molecular screening of human cancers.

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          Author and article information

          Journal
          Lab Chip
          Lab on a chip
          Royal Society of Chemistry (RSC)
          1473-0189
          1473-0189
          Jun 07 2014
          : 14
          : 11
          Affiliations
          [1 ] Department of Chemical Engineering, College of Engineering University of Michigan, 2300 Hayward Street, Ann Arbor, Michigan-48109, USA. snagrath@umich.edu.
          Article
          NIHMS587147
          10.1039/c4lc00136b
          4134440
          24722878
          35025d91-c615-4bd1-85ea-43e80b950dd1
          History

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