Cell density-dependent regulation of fibronectin splicing at the EDA region in fibroblasts: cell density also modulates the responses of fibroblasts to TGF- β and cancer cell-conditioned medium

Abstract

Recently we reported that cancer cell–fibroblast interactions can modulate the expression of fibronectin (FN) isoforms in vitro, i.e. conditioned medium of human rectal adenocarcinoma cell line RCM-1 (RCM-1 CM) stimulated the expression of EDA-containing FN (EDA(+)FN) mRNA by fibroblasts and this stimulation was partly mediated by transforming growth factor- β (TGF- β) included in RCM-1 CM. In the present study, cell density was shown to regulate FN splicing at the EDA region in fibroblasts. Fibroblasts plated at a low cell density expressed a significantly higher percentage of EDA(+)FN mRNA than those plated at a high cell density. Moreover, fibroblast cell density modulated the effects of TGF- β and RCM-1 CM on FN splicing at the EDA region differently. The time courses of their effects were similar to each other at a high cell density. At a low cell density, however, they were different. TGF- β showed a relatively short-lived stimulation of EDA(+)FN mRNA, with the peak response 24 h after treatment, followed by a decline to the base line by 72 h. On the other hand, RCM-1 CM caused a prolonged stimulation, maintaining almost the maximum responses from 24 to 72 h. Thus, these results at a low cell density indicated the presence of a factor(s) other than TGF- β in RCM-1 CM that stimulates the expression of EDA(+)FN mRNA directly or modulates the effect of TGF- β. The use of several different cell densities might help in the search for new factors affecting FN splicing.