Development of a coculture model of encapsulated cells.

Details

Serval ID
serval:BIB_27EDFCF9F039
Type
Article: article from journal or magazin.
Collection
Publications
Institution
Title
Development of a coculture model of encapsulated cells.
Journal
Annals of the New York Academy of Sciences
Author(s)
Canaple L., Nurdin N., Angelova N., Hunkeler D., Desvergne B.
ISSN
0077-8923[print], 0077-8923[linking]
Publication state
Published
Issued date
2001
Volume
944
Pages
350-361
Language
english
Notes
Publication types: Journal Article ; Research Support, Non-U.S. Gov't
Publication Status: ppublish
Abstract
In the whole animal, metabolic regulations are set by reciprocal interactions between various organs, via the blood circulation. At present, analyses of such interactions require numerous and uneasily controlled in vivo experiments. In a search for an alternative to in vivo experiments, our work aims at developing a coculture system in which different cell types are isolated in polymer capsules and grown in a common environment. The signals exchanged between cells from various origins are, thus, reproducing the in vivo intertissular communications. With this perspective, we evaluated a new encapsulation system as an artificial housing for liver cells on the one hand and adipocytes on the other hand. Murine hepatocytes were encapsulated with specially designed multicomponent capsules formed by polyelectrolyte complexation between sodium alginate, cellulose sulphate and poly(methylene-coguanidine) hydrochloride, of which the permeability has been characterized. We demonstrated the absence of cytotoxicity and the excellent biocompatibility of these capsules towards primary culture of murine hepatocytes. Encapsulated hepatocytes retain their specific functions--transaminase activity, urea synthesis, and protein secretion--during the first four days of culture in minimum medium. Mature adipocytes, isolated from mouse epidydimal fat, were embedded in alginate beads. Measurement of protein secretion shows an identical profile between free and embedded adipocytes. We finally assessed the properties of encapsulated hepatocytes, cryopreserved over a periods of up to four months. The perspective of using encapsulated cells in coculture are discussed, since this system may represent a promising tool for fundamental research, such as analyses of drug metabolism, intercellular regulations, and metabolic pathways, as well as for the establishment of a tissue bank for storage and supply of murine hepatocytes.
Keywords
Adipocytes/cytology, Animals, Bioartificial Organs, Coculture Techniques, Cryopreservation, Energy Metabolism, Hepatocytes/cytology, Membranes, Artificial, Mice, Permeability
Pubmed
Web of science
Create date
24/01/2008 15:27
Last modification date
20/08/2019 13:07
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