Isolation and Characterization of Extracellular Vesicles from Cell Culture Media.

ABSTRACT

Extracellular vesicles (EVs) were once believed to serve as a means of disposing of cellular waste. However, recent discoveries have identified their crucial roles in intercellular communication between neighboring and distant cells. Almost all cell types have now been identified to produce EVs, which play a vital role in transporting cellular cargo. The functional roles of EVs, along with their implications in (patho)physiology of various diseases, are still being explored. In the last decade, the identification of EV roles in pathophysiology, pharmacology, and diagnostics has gained significant interest, albeit the development of universal methods for the isolation and characterization of EVs has been the limiting factor. A further challenge is ensuring that EVs of various size categories, which are thought to be produced via independent cellular mechanisms and often differ in their cargo and physiological purpose, can be separated and studied in isolation.This protocol provides an efficient and accessible method for isolating and characterizing EV samples from conditioned cell culture media. The combination of differential centrifugation and the use of a commercial EV-precipitation kit allows for the rapid isolation of a highly pure sample of EVs separated by size. A microfluidic resistive pulse sensing (MRPS)-based method is then used to quantify the particles, as well as to assess the size distribution of the EV sample. As a result, this protocol provides a reproducible means to isolate and characterize EVs of a variety of sizes from nearly any cultured cells.