Considerations for MESF-bead based assignment of absolute fluorescence values to nanoparticles and extracellular vesicles by flow cytometry

Abstract

AbstractFlow cytometry is a promising technique to characterize nanoparticles (NPs) and extracellular vesicles (EVs). However, the majority of reported experiments, use arbitrary units to indicate fluorescence intensity. This hampers comparison of results from different laboratories and different platforms. We investigated the advised use of calibrated molecules of equivalent soluble fluorophores (MESF)-beads for assignment of absolute fluorescence to NPs and EVs. Firstly, we evaluated the use of two different FITC MESF bead sets as calibrators on three different flow cytometry platforms (BD Influx™, CytoFLEX LX™ and SORP BD FACSCelesta™). Secondly, NPs and biological 4T1 mammary carcinoma-EVs were analyzed using the BD Influx and their fluorescence signals calibrated by using different sets of FITC and PE MESF beads. Although fluorescence calibration, using bright calibrators designed for cellular flow cytometry, makes inter-platform comparison possible for fluorescently labeled cells and brightly labeled particles, but the uncertainty of the currently available calibrators, which are far out of the fluorescence range of the sub-micron particles, hampers a reliable assignment of absolute MESF numbers based on extrapolation into the dim fluorescence range. Our results illustrate the need for calibration materials specifically designed for NPs and EVs to enable a reliable assignment of absolute fluorescence values in the lower fluorescent ranges.