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  • Alterations of matrix- and cell-associated proteoglycans inhibit osteogenesis and growth response to fibroblast growth factor-2 in cultured rat mandibular condyle and calvaria.

Alterations of matrix- and cell-associated proteoglycans inhibit osteogenesis and growth response to fibroblast growth factor-2 in cultured rat mandibular condyle and calvaria.

Cell and tissue research (1999-02-18)
A Molténi, D Modrowski, M Hott, P J Marie
RÉSUMÉ

Matrix and cell surface proteoglycans (PGs) may play important roles in the control of cellular actions of heparan-binding growth factors such as fibroblast growth factor (FGF) during chondrogenesis and osteogenesis. In this study, we used 4-methylumbelliferyl-beta-d-xyloside, an inhibitor of PG synthesis, and sodium chlorate, a competitive inhibitor of glycoconjugate sulfation, to determine the functional consequences of alterations of PG metabolism on osteogenesis and on FGF actions in neonatal rat condyle and calvaria in vitro. Biochemical analysis showed that beta-d-xyloside (1 mM) or chlorate (15 mM) treatment for 1-8 days inhibited cellular PG synthesis by 60-80% in condyle and calvaria, as evaluated by [35S]sulfate incorporation. Histochemistry and immunohistochemistry showed that the inhibition of PG synthesis by beta-d-xyloside resulted in reduced incorporation of chondroitin sulfate into cartilage and bone matrix. This was associated with a 75% reduction in cell growth in condyle, determined by DNA synthesis, and in collagenous matrix synthesis in condyle and calvaria, evaluated by tritiated proline incorporation and type I collagen immunohistochemistry. Morphological and quantitative autoradiographic analyses also showed that inhibition of PG synthesis by beta-d-xyloside blocked bone matrix formation by perichondral progenitor cells in condyles and by osteoblasts in calvaria. In addition, alteration of PG metabolism blocked the mitogenic response to rhFGF-2 in calvaria. The data show that functional proteoglycans are essential for osteogenesis and for the growth response to FGF-2 during osteogenic differentiation in vitro.

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4-Methylumbelliferyl-β-D-xylopyranoside, β-xylosidase substrate