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Purification Analysis, Intracellular Tracking, and Colocalization of Extracellular Vesicles Using Atomic Force and 3D Single-Molecule Localization Microscopy

Sujitha Puthukodan, Martina Hofmann, Mario Mairhofer, Hannah Janout, Jonas Schurr, Fabian Hauser, Christoph Naderer, Johannes Preiner, Stephan Winkler, Dmitry Sivun, Jaroslaw Jacak

2023Analytical Chemistry17 citationsDOIOpen Access PDF

Abstract

Extracellular vesicles (EVs) play a key role in cell-cell communication and thus have great potential to be utilized as therapeutic agents and diagnostic tools. In this study, we implemented single-molecule microscopy techniques as a toolbox for a comprehensive characterization as well as measurement of the cellular uptake of HEK293T cell-derived EVs (eGFP-labeled) in HeLa cells. A combination of fluorescence and atomic force microscopy revealed a fraction of 68% fluorescently labeled EVs with an average size of ∼45 nm. Two-color single-molecule fluorescence microscopy analysis elucidated the 3D dynamics of EVs entering HeLa cells. 3D colocalization analysis of two-color direct stochastic optical reconstruction microscopy (dSTORM) images revealed that 25% of EVs that experienced uptake colocalized with transferrin, which has been linked to early recycling of endosomes and clathrin-mediated endocytosis. The localization analysis was combined with stepwise photobleaching, providing a comparison of protein aggregation outside and inside the cells.

Topics & Concepts

ColocalizationChemistryEndosomeFluorescence microscopeVesicleBiophysicsEndocytosisMicroscopyPhotobleachingFluorescence recovery after photobleachingCell biologyImmunoelectron microscopyCell membraneIntracellularHeLaGreen fluorescent proteinSuper-resolution microscopyFluorescenceCellMembraneBiochemistryBiologyOpticsPhysicsImmunohistochemistryQuantum mechanicsGeneImmunologyExtracellular vesicles in diseaseRNA Interference and Gene DeliveryThermal properties of materials