Inhibitory effects of basic fibroblast growth factor on chondrocyte differentiation

Abstract

The role of basic fibroblast growth factor (bFGF) and insulin-like growth factor I (IGF-I) in cartilage growth was studied in primary cultures of rat rib growth plate chondrocytes. Growth factors effects on expression of the proto-oncogene c-fos, DNA synthesis, differentiation, and morphological changes were analyzed by in situ hybridization, ³H-thymidine incorporation, and light and fluorescence microscopy. In serum-deprived cells, bFGF induced a transient expression of c-fos with a maximal effect 15–30 minutes after stimulation. After 24 h of culture it had a slightly lower stimulatory effect on DNA synthesis than IGF-I, but became a significantly more potent mitogen than IGF-I after 48 and 72 h. The stimulatory effect of bFGF on DNA synthesis coincided with a decrease in collagen type II and IGF-II expression. In contrast, IGF-I alone stimulated expression of these genes. In bFGF-treated cultures, cell morphology and the appearance of actin filaments was changed. Polygonal chondrocytes became elongated, fibroblast-like, and the smooth actin filaments were brush-like and disrupted. Addition of IGF-I reduced these changes without affecting c-fos expression induced by bFGF. Our results suggest that bFGF stimulates cell proliferation by preventing terminal differentiation of chondrocytes. This effect is mediated by induction of c-fos expression and a decrease in the steady-state levels of transcripts for collagen II and IGF-II.