Inhibition of chondrogenesis by normal mouse serum in cultured chick limb cells

Abstract

Chick limb-bud mesoderm cells from embryonic stages 22–25 were cultured at high cell densities in media known to support chondrogenesis. Under these conditions the continuous presence of normal mouse serum, at a concentration of 10%, inhibits the ability of the cells to produce toluidine blue-stainable cartilage matrix materials. In contrast, mesodermal cells treated with comparable concentrations of other heterologous sera continue to differentiate much like the control cultures while growing in the presence of the test sera. The inhibitory effect of the serum was shown not to be the result of a general cytotoxic effect on protein synthesis or the inability of the cells to incorporate [ 3H] d-glucosamine. There was a significant difference however, in the distribution of the incorporated glucosamine. Less label was associated with the cell layer of the treated series, while a greater amount of the incorporated material was found to be secreted into the medium when compared with the control cultures. Studies have shown also that the serum inhibitory response is dose dependent, while the factor(s) itself is non-dialysable, stable to heat and repeated freezing and is not a conventional serum lipoprotein. Following the addition of whole or delipidated mouse serum, a significant increase in lipid droplets appears in the cytoplasm of the cells. Biochemical analyses of mouse serum-treated cells indicate that there is a marked increase in their triglyceride content as compared to the control cells. While the nature of the serum inhibitory factor remains to be determined, the accumulation of triglyceride following mouse serum treatment suggests that this may play a role in modulating the expression of the chondrogenic phenotype.