Emily Zeringer

The Complete Exosome Workflow Solution: From Isolation to Characterization of RNA Cargo

Exosomes are small (30–150 nm) vesicles containing unique RNA and protein cargo, secreted by all cell types in culture. They are also found in abundance in body fluids including blood, saliva, and urine. At the moment, the mechanism of exosome formation, the makeup of the cargo, biological pathways, and resulting functions are incompletely understood. One of their most intriguing roles is intercellular communication—exosomes function as the messengers, delivering various effector or signaling macromolecules between specific cells. There is an exponentially growing need to dissect structure and the function of exosomes and utilize them for development of minimally invasive diagnostics and therapeutics. Critical to further our understanding of exosomes is the development of reagents, tools, and protocols for their isolation, characterization, and analysis of their RNA and protein contents. Here we describe a complete exosome workflow solution, starting from fast and efficient extraction of exosomes from cell culture media and serum to isolation of RNA followed by characterization of exosomal RNA content using qRT-PCR and next-generation sequencing techniques. Effectiveness of this workflow is exemplified by analysis of the RNA content of exosomes derived from HeLa cell culture media and human serum, using Ion Torrent PGM as a sequencing platform.

Methods for the extraction and RNA profiling of exosomes

AIM To develop protocols for isolation of exosomes and characterization of their RNA content. METHODS Exosomes were extracted from HeLa cell culture media and human blood serum using the Total exosome isolation (from cell culture media) reagent, and Total exosome isolation (from serum) reagent respectively. Identity and purity of the exosomes was confirmed by Nanosight(®) analysis, electron microscopy, and Western blots for CD63 marker. Exosomal RNA cargo was recovered with the Total exosome RNA and protein isolation kit. Finally, RNA was profiled using Bioanalyzer and quantitative reverse transcription-polymerase chain reaction (qRT-PCR) methodology. RESULTS Here we describe a novel approach for robust and scalable isolation of exosomes from cell culture media and serum, with subsequent isolation and analysis of RNA residing within these vesicles. The isolation procedure is completed in a fraction of the time, compared to the current standard protocols utilizing ultracentrifugation, and allows to recover fully intact exosomes in higher yields. Exosomes were found to contain a very diverse RNA cargo, primarily short sequences 20-200 nt (such as miRNA and fragments of mRNA), however longer RNA species were detected as well, including full-length 18S and 28S rRNA. CONCLUSION We have successfully developed a set of reagents and a workflow allowing fast and efficient extraction of exosomes, followed by isolation of RNA and its analysis by qRT-PCR and other techniques.

Abstract 1870: Development of a standard operating procedure for exosome isolation and analysis using clinical samples: Application to cancer biomarker discovery

Exosomes are small vesicles (30-150 nm) found in abundance in human body fluids which function as carriers of different species of RNA and protein between diverse locations in the body. The spectrum of current scientific interest in exosomes is wide and ranges from studying their functions and pathways to utilizing them in diagnostics and therapeutics development. As such, there is a growing need for quick and easy methods for both isolation of exosomes and analysis of their cargo. We present herein a workflow for exosome isolation and analysis which entails: (i) fast and efficient isolation of exosomes from serum, plasma, and urine of both healthy donors and patients with prostate cancer, using Total Exosome Isolation reagents; (ii) characterization of their size distribution and count with Nanosight LM10 instrument; (iii) extraction of exosome “cargo” with Total Exosome RNA and Protein Isolation kit; (iv) characterization of exosomal RNA content using the Ion Torrent PGM sequencing and qRT-PCR. The protocol described herein lays the groundwork for the development of a standardized operating procedure (SOP) for isolation of exosomes and downstream analysis of their constituents, using clinical samples. We demonstrate that cancer-specific RNA signatures residing within the exosomes can be delineated from different patient cohorts. This is the first step towards developing a method whereby performance characteristics can be measured and used to optimize a validated assay useful for routine testing of clinical samples. Citation Format: Robert A. Setterquist, Alex J. Rai, Emily Zeringer, Mu Li, Tim Barta, Jeoffrey Schageman, Susan Magdaleno, Alexander V. Vlassov. Development of a standard operating procedure for exosome isolation and analysis using clinical samples: Application to cancer biomarker discovery. [abstract]. In: Proceedings of the 105th Annual Meeting of the American Association for Cancer Research; 2014 Apr 5-9; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2014;74(19 Suppl):Abstract nr 1870. doi:10.1158/1538-7445.AM2014-1870