Abstract 5591: Simultaneous isolation and quantification of circulating exosomes for cancer biomarker discovery

Membrane bound extracellular 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 and also carry signature molecules for early stage cancer detection. However, to exploit the use of circulatory exosomes as a new diagnostic tool, a rapid, high-throughput and reproducible method is required for their isolation and to allow their molecular analysis. We have developed a simple and a low cost microfluidic-based platform to analyze cirEVs enriched in exosomes directly from blood serum in a single step allowing simultaneous capture and quantification of exosomes. To capture exosomes with specificity, we employed a microfluidic device “ExoChip” functionalized with antibodies against exosomes to capture cirEVs. Subsequent staining with a fluorescent dye 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