Methods in Molecular Biology (2022) 2436: 183–192
DOI 10.1007/7651_2021_413
© Springer Science+Business Media, LLC 2021
Published online: 07 September 2021
Production of Extracellular Vesicles Using a CELLine
Adherent Bioreactor Flask
Anastasiia Artuyants, Vanessa Chang, Gabrielle Reshef, Cherie Blenkiron,
Lawrence W. Chamley, Euphemia Leung, and Colin L. Hisey
Abstract
The efficient production of extracellular vesicles (EVs) from adherent cells in vitro can be challenging when
using conventional culture flasks. Issues such as low cell density leading to low EV yield, and the inability to
completely remove bovine serum EVs without starvation contribute to this challenge. By comparison, the
two-chamber CELLine adherent bioreactor can produce significantly more EVs with improved time, space,
and resource efficiency. Furthermore, it is highly accessible and can continually produce EVs using long
term cultures without the need for passaging. Lastly, the 10 kDa semipermeable, cellulose acetate mem-
brane separating the cell and media chambers allows for the continual use of bovine serum in the media
chamber while preventing bovine EVs from contaminating the conditioned media.
Key words CELLine bioreactor, Exosomes, Extracellular vesicles, Microvesicles
1
Introduction
To date, most researchers producing EVs from cell cultures rely on
the use of multiple conventional culture flasks due to the
low-density monolayers of cells on the surface of the flasks. To
maintain multiple flasks, large volumes of culture media are
required, which must then be concentrated using ultrafiltration or
multiple ultracentrifuge spins for downstream characterization and
use of the EVs. In addition, this method requires the use of signifi-
cant amounts of single use polystyrene, user time, and incubator
space. Importantly, bovine or other animal serum is routinely used
in conventional cultures to support cell growth up to the point of
conditioned media collection, but the endogenous EVs and other
nanoparticles (e.g., protein/growth factor aggregates) within the
serum are nearly impossible to fully deplete, with researchers often
resorting to up to 72 h of serum starvation prior to media collec-
tion with confounding effects [1–3]. Lastly, these EV productions
are typically done as one-off experiments, causing the final EV
preparation to be seen as a precious material, ultimately discoura-
ging more creative and high-risk experimental designs.
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