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Sucrose-based cryoprotective storage of extracellular vesicles

Sierra A. Walker, Irina Davidovich, Yubo Yang, Andrew Lai, Jenifer Pendiuk Gonçalves, Vatsal J Deliwala, Sara Busatto, Shane A. Shapiro, Naama Koifman, Carlos Salomón, Yeshayahu Talmon, Joy Wolfram

2022Extracellular Vesicle47 citationsDOIOpen Access PDF

Abstract

Advancements in extracellular vesicle (EV) studies necessitate the development of optimized storage conditions to ensure preservation of physical and biochemical characteristics. In this study, the most common buffer for EV storage (phosphate-buffered saline/PBS) was compared to a cryoprotective 5% sucrose solution. The size distribution and concentration of EVs from two different sources changed to a greater extent after -80 °C storage in PBS compared to the sucrose solution. Additionally, molecular surface protrusions and transmembrane proteins were more prevalent in EVs stored in the sucrose solution compared to those stored in PBS. This study demonstrates, for the first time, that distinct ring-like molecular complexes and cristae-like folded membranous structures are visible upon EV degradation. Taken together, the size, concentration, molecular surface extensions, and transmembrane proteins of EVs varied substantially based on the buffer used for -80 °C storage, suggesting that biocompatible cryoprotectants, such as sucrose, should be considered for EV studies.

Topics & Concepts

SucroseCryoprotectantVesicleChemistryPhosphate buffered salineBiophysicsExtracellular vesiclesExtracellularChromatographyMembraneBiochemistryCryopreservationCell biologyBiologyEmbryoExtracellular vesicles in diseaseRNA Interference and Gene DeliveryNanoplatforms for cancer theranostics
Sucrose-based cryoprotective storage of extracellular vesicles | Litcius