The relationship of serum fibronectin and cell shape to thrombin-induced inhibition of dna synthesis in human fibroblasts

In a previous report it was shown that inhibited DNA synthesis and altered morphology resulted when human fibroblasts (HF) were plated in 3% fetal calf serum (FCS) medium preincubated with thrombin (Hall and Ganguly, 1980a). This was in contrast to the stimulatory effects of this enzyme when added to cells several hours after subculture. Those observations suggested that thrombin may act upon serum components of the growth medium necessary for initial culture establishment following cell plating. In this report, the relationship of serum fibronectin (FN) to this thrombin-mediated inhibitory phenomena was investigated. It was found that the development of altered morphology and inhibited DNA synthesis could be completely prevented by the addition of this glycoprotein to medium preincubated with thrombin. Cell shape and DNA synthesis appeared to be closely related and both parameters showed a dose-dependent sensitivity to added fibronectin. To further investigate this, a technique was developed in which cell shape could be selectively varied and DNA synthesis measured in the absence of serum or thrombin. These studies indicated that cell shape was closely related to DNA synthesis and morphologies identical to that seen in thrombin-treated medium were produced. As observed in the thrombin system, normal cellular appearance and DNA synthesis could be restored by the addition of fibronectin. The results of this work suggest that thrombin acts upon medium components necessary for normal morphological development, possibly fibronectin, in cells following subculture. Inhibited DNA synthesis and growth seem to arise as a direct consequence of this effect.