Interaction of epithelial cells and fibroblasts in culture: Effect on glycosaminoglycan levels

Abstract

Twelve- to fifteen-day chick embryo liver cells (epithelial) were cultured on top of confluent chick embryo fibroblasts to produce an in vitro model of an epithelial-mesenchymal interacting system. This cocultivation resulted in a marked increase in hyaluronic acid (HA) levels and a decrease in chondroitin sulfate (CS) levels, either in total or in proportion to HA, compared with the two cell types cultured separately. The liver cells cultured alone produced little or no detectable glycosaminoglycans (GAGs). Cocultivation of increasing numbers of liver cells with fibroblasts resulted in a progressive increase and decrease of HA and CS levels, respectively, and the combined effect of these changes was a progressive increase in the HA/CS ratio. Fibroblasts cultured in liver-cell-conditioned growth medium also showed increased levels of HA, but in contrast to cocultivation, an increase in CS and no change in the HA/CS ratio. Liver cells cultured in fibroblast-conditioned growth medium showed no changes in GAG level. This suggests that under conditions of cocultivation the fibroblasts alone could be responsible for the increased HA levels and that the decreased CS levels are a result of conditions produced by the close proximity of the two cell types. In vivo most connective tissues immediately adjacent to epithelial tissues are also characterized by a matrix rich in HA and these results support the concept that some epithelial tissues are able to modulate the GAG composition of adjacent connective tissues and thereby affect their immediate extracellular environment.