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Extracellular vesicles (EVs) including exosomes are being actively researched. EVs are involved with several biological processes including (1) cell-to-cell signaling; (2) transfer proteins, lipids, and nucleic acids; and (3) markers of disease. The small size of EVs, their heterogeneity, and low refractive index make them difficult to identify. However, flow cytometry can be used to analyze single particles and provide both cell counting and phenotyping of EV properties.
Learn about the Attune Flow Cytometers and which antibodies and reagents identify and characterize EVs.
EVs often require significant sample dilution to ensure single-particle detection. Higher particle concentrations in a sample results in higher coincidences, also known as the swarm effect (Figure 1). Attune Flow Cytometers are equipped with acoustic-assisted hydrodynamic focusing, which allows analyzing highly diluted samples quickly and without increasing the number of coincidences (Figure 2). We recommend that you add the 488/10 side scatter filter along with ultra-filtering of the focusing fluid to decrease background noise and enable discrimination of 100 nm particles.
Figure 1. Highly concentrated samples produce ‘swarm’ signals with multiple vesicles detected as a single event. Minimize the high the high coincidence with serial sample dilutions.
Antigen expression depends on the cell of origin. These markers should be used in combination, with specific markers for the cell of origin or other reagents.
Fluorescent dyes can be used to uniformly label a population of EVs from cell culture. These stain lipids and cell membranes which is useful for EV gating and detection.
Intracellular proteins and DNA can be labeled with bright dyes. RNA staining is more challenging. We offer several dyes in a wide range of colors to help detect EV populations.
Controls are important to correctly identify your population of EVs from contamination and debris. Remember to include these controls:
Filter all fluids and wash pipet tips with filtered distilled water to minimize contamination of debris and non-sample EVs. We recommend that you use 0.1 μm or smaller filters. A 500 ml bottle will require 12–24 hours of vacuum to filter all fluids.
You may also employ Dynabeads magnetic beads as an alternative method for EV isolation and flow cytometry detection.
Title: Analysis of Surface Antigens on Exosomes Using the Attune NxT Flow Cytometer
Presenter: Steve McClellan, BS, MT, SCYM (ASCP)CM Manager, Basic & Translational Research Operations Chief, Flow Cytometry Core Laboratory, Mitchell Cancer Institute University of South Alabama
Flow Cytometry Learning Center—Access flow cytometry educational resources for better experiment planning and execution.
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Flow Cytometry Support Center—Find technical support recommendations for your flow cytometry workflows, including tips for experimental setup and in-depth troubleshooting help.