Adhesion to fibronectin or collagen I gel induces rapid, extensive, biosynthetic alterations in epithelial cells.

Extracellular matrix influences many cellular events. In this study, we demonstrate that adhesion of human salivary gland (HSG) epithelial cells to fibronectin- or collagen I gel-coated substrates, mediated by beta1 integrins, results in substantial alterations in protein and RNA expression profiles. The large numbers of changes in expression suggest that simply changing the adhesive substrate has basic effects on the regulation of cellular biosynthesis. Two-dimensional electrophoresis of [35S]methionine-labeled HSG cell proteins identified significant differences in the patterns of protein expression by cells cultured on nonprecoated substrates, collagen I gels or fibronectin. Thirty-two differentially expressed cDNA clones, which included both novel and previously sequenced genes, were up-regulated within 6 hr by culturing HSG cells on fibronectin or collagen I gels. Therefore, adhesion to collagen I or fibronectin resulted in rapid, widespread changes in cellular biosynthetic control. Expression of some genes was induced by ligation of beta1 integrins with antifunctional antibodies, whereas the expression of other genes was not induced. Most of the differentially expressed genes were up-regulated by adhesion to both fibronectin- and collagen I gel-coated substrates, but a few genes were selectively up-regulated on only one substrate. Furthermore, the up-regulated expression of some genes was detected within 3 hr, whereas changes in others required 6 hr. Discrete adhesive substrates and integrin molecules differentially affected the expression of a significant number of genes, suggesting that the cellular responses to adhesion were triggered through several signaling pathways.