Hepatocyte behavior on synthetic glycopolymer matrix: inhibitory effect of receptor-ligand binding on hepatocyte spreading

Authors
Kim, SHHoshiba, TAkaike, T
Issue Date
2004-05
Publisher
ELSEVIER SCI LTD
Citation
BIOMATERIALS, v.25, no.10, pp.1813 - 1823
Abstract
The interaction of carbohydrate-based polymers with asialoglycoprotein receptors (ASGPRs) on the surface of hepatocytes has been used to design hepatocyte adhesion matrices. Therefore, we have characterized the interaction of ASGPR on the surface of hepatocytes with glycopolymer-coated surfaces. Since ASGPRs bound to glycopolymer surfaces escape from internalization and degradation, they were quantified by western blot analysis. The amount of hepatocyte ASGPRs that initially adhered to the glycopolymer surface was proportional to the concentration of the coated glycopolymer. We found that the initial adhesion of hepatocytes to the glycopolymer surface was enhanced by interactions with ASGPR, whereas interactions with ASGPR inhibited the post-adhesion process, a cell adhesion phenomenon that occurs following the initial adhesion. Furthermore, hepatocytes are much more spread on glycopolmer surfaces with lower coating density. Taken together, we suggest that the post-adhesion process triggered hepatocyte spreading on glycopolymer surfaces, and ASGPR-carbohydrate interactions act negatively on the post-adhesion mechanism as well as on hepatocyte spreading on glycopolymer surfaces depending on the density of coated glycopolymers. (C) 2003 Elsevier Ltd. All rights reserved.
Keywords
CARBOHYDRATE-DERIVATIZED SURFACES; ISOLATED RAT HEPATOCYTES; ASIALOGLYCOPROTEIN RECEPTOR; ADHESION; LIVER; RECOGNITION; EXPRESSION; GALACTOSE; POLYSTYRENE; ENDOCYTOSIS; CARBOHYDRATE-DERIVATIZED SURFACES; ISOLATED RAT HEPATOCYTES; ASIALOGLYCOPROTEIN RECEPTOR; ADHESION; LIVER; RECOGNITION; EXPRESSION; GALACTOSE; POLYSTYRENE; ENDOCYTOSIS; primary hepatocyte; asialoglycoprotein receptor; synthetic glycopolymer; artificial ECM; cell morphology
ISSN
0142-9612
URI
https://pubs.kist.re.kr/handle/201004/137658
DOI
10.1016/j.biomaterials.2003.08.035
Appears in Collections:
KIST Article > 2004
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