Comparative analysis of EV isolation procedures for miRNAs detection in serum samples

Comparative analysis of EV isolation procedures for miRNAs detection in serum samples

Extracellular vesicles (EVs) are emerging as potent non-invasive biomarkers. However, current methodologies are time consuming and difficult to translate to clinical practice. To analyse EV-encapsulated circulating miRNA, we searched for a quick, easy and economic method to enrich frozen human serum...

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Bibliographic Details
Published in:Journal of extracellular vesicles Vol. 5; no. 1; pp. 31655 - n/a
Main Authors: Andreu, Zoraida, Rivas, Eva, Sanguino-Pascual, Aitana, Lamana, Amalia, Marazuela, Mónica, González-Alvaro, Isidoro, Sánchez-Madrid, Francisco, de la Fuente, Hortensia, Yáñez-Mó, María
Format: Journal Article
Language:English
Published: Sweden Taylor & Francis 01-01-2016
John Wiley & Sons, Inc
Co-Action Publishing
Wiley
Subjects:
Arthritis
biomarker
Biomarkers
Comparative analysis
Cytometry
diagnosis
Disease
extracellular vesicles
Flow cytometry
Laboratories
Longitudinal studies
Melanoma
Methods
microRNA
MicroRNAs
miRNA
Nanoparticles
Physiology
Polyethylene glycol
Protein folding
Proteins
serum
Ultracentrifugation
polyethylene glycol
diagnosis
microRNA
extracellular vesicles
biomarker
serum
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Summary:Extracellular vesicles (EVs) are emerging as potent non-invasive biomarkers. However, current methodologies are time consuming and difficult to translate to clinical practice. To analyse EV-encapsulated circulating miRNA, we searched for a quick, easy and economic method to enrich frozen human serum samples for EV. We compared the efficiency of several protocols and commercial kits to isolate EVs. Different methods based on precipitation, columns or filter systems were tested and compared with ultracentrifugation, which is the most classical protocol to isolate EVs. EV samples were assessed for purity and quantity by nanoparticle tracking analysis and western blot or cytometry against major EV protein markers. For biomarker validation, levels of a set of miRNAs were determined in EV fractions and compared with their levels in total serum. EVs isolated with precipitation-based methods were enriched for a subgroup of miRNAs that corresponded to miRNAs described to be encapsulated into EVs (miR-126, miR-30c and miR-143), while the detection of miR-21, miR-16-5p and miR-19a was very low compared with total serum. Our results point to precipitation using polyethylene glycol (PEG) as a suitable method for an easy and cheap enrichment of serum EVs for miRNA analyses. The overall performance of PEG was very similar, or better than other commercial precipitating reagents, in both protein and miRNA yield, but in comparison to them PEG is much cheaper. Other methods presented poorer results, mostly when assessing miRNA by qPCR analyses. Using PEG precipitation in a longitudinal study with human samples, we demonstrated that miRNA could be assessed in frozen samples up to 8 years of storage. We report a method based on a cut-off value of mean of fold EV detection versus serum that provides an estimate of the degree of encapsulation of a given miRNA.
Bibliography:Responsible Editor: Elena Aikawa, Harvard Medical School, USA.
These authors contributed equally to this study
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ISSN:2001-3078
2001-3078
DOI:10.3402/jev.v5.31655