The targeted adhesion of a specific cell type from a mixed cell suspension via the surface presentation of a cell-specific ligand is demonstrated. This generic strategy is illustrated by the covalent attachment of a galactose derivative to a polylysine backbone via the amine functionality. Following adsorption of the resultant material to a polymer surface, hepatocyte adhesion is increased via the interaction between galactose and asialoglycoprotein receptors in a concentration-dependent manner. The selective nature of the material is demonstrated by the approximate doubling in the adhesion of hepatocytes relative to a nontargeted cell type (hepatic stellate cells), and an inability of the modified polymer surface to attract additional numbers of the nontargeted cells. This strategy provides a mechanism for controlling the ratios of cell types adhering to scaffold supports, thus enabling the rapid creation of defined coculture systems from heterogeneous cell suspensions.
Copyright 2003 Wiley Periodicals, Inc. Biotechnol Bioeng 81: 625-628, 2003.