Analysis of cartilage differentiation from skeletal muscle grown on bone matrix: II. Chondroitin sulfate synthesis and reaction to exogenous glycosaminoglycans

In the first paper in this series (Nathanson, M. A., and Hay, E. D. (1980). Develop. Biol. 78, 301–331), we described the ultrastructural alterations that take place when embryonic skeletal muscle is induced to form hyaline cartilage by demineralized bone matrix in vitro. In this paper, we analyze the pattern of appearance of chondroitin sulfates and dermatan sulfate in injured muscle in situ and in explants of muscle cultured either on bone matrix or on collagen gel. We also investigate the effects of exogenous glycosaminoglycans on the cultures to determine whether chondroitin sulfate (Ch-S) and hyaluronic acid (HA) can enhance or inhibit the biochemical differentiation of cartilage under these conditions. Our results indicate that during the first morphological phase, 1–3 days in vitro, there is an increased sulfate uptake, a shift in the relative abundance of Ch-S, and an increase in the ratio of chondroitin-4-sulfate (Ch-4-S) to chondroitin-6-sulfate (Ch-6-S); this change is correlated with the transformation of myoblasts to fibroblast-like cells in both types of cultures. A similar increase in the $\text{Ch-4-S}\text{Ch-6-S}$ ratio occurs in injured muscle in situ, suggesting that phase I is a regenerative response. Explants on bone matrix sustain Ch-4-S levels between 4 and 5 days (phase II) and show a large increase in Ch-4-S and sulfate incorporation when they form cartilage at 6–10 days (phase III). Explants on collagen gels regenerate muscle at 4–10 days with decreasing $\text{Ch-4-S}\text{Ch-6-S}$ ratios and decreasing sulfate incorporation. The data demonstrate that an environmental influence, such as trauma, is sufficient to alter the biosynthetic expression of skeletal muscle and that under appropriate conditions (such as the presence of bone matrix) this response may be augmented, leading to the synthesis of extracellular matrix components at ratios characteristic of cartilage. Exogenous Ch-S and HA did not significantly effect this overall pattern. These results are discussed in relation to the morphological observations presented in the preceding paper.