Basic fibroblast growth factor as a selective inducer of matrix Gla protein gene expression in proliferative chondrocytes.

Matrix Gla protein (MGP) is a member of the vitamin K-dependent gamma carboxylase protein family expressed in cartilage. Insulin-like growth factor I (IGF1) stimulates chondrocyte differentiation, whereas basic fibroblast growth factor (FGF2) acts in an opposite manner. We explored the differential expression and regulation by IGF1 and FGF2 of the MGP gene during chondrocyte differentiation. We used a primary culture system of rabbit epiphyseal chondrocytes to show that MGP mRNA is mainly expressed during serum-induced proliferation. Much lower MGP mRNA content is observed in post-mitotic chondrocytes, which newly express alpha 1X procollagen mRNA, a marker of late-differentiated cells. From studies of a series of growth factors, it was shown that IGF1 decreased chondrocyte MGP transcripts, whereas FGF2 had the opposite effect. FGF2 stimulated chondrocyte MGP production in a dose- and time-dependent manner at the mRNA and protein levels. FGF2 acted in a dose- and time-dependent manner, reaching a maximum at 10 ng/ml at 20 h. The protein synthesis inhibitor cycloheximide did not modify FGF2 action, in agreement with a direct effect. Actinomycin D abolished FGF2-induced stimulation, strongly suggesting that FGF2 modulated MGP gene transcription. We transiently transfected chondrocytes with a construct containing the mouse MGP promoter from -5000 to -168 base pairs, relative to the transcription start site of the gene linked to the luciferase gene (MGP-Luc). In transfected cells, FGF2 stimulated luciferase activity up to sevenfold while IGF1 had no effect. Hence, FGF2 induces transcription of the MGP gene via the 5'-flanking region of the gene. Using a series of deleted MGP-Luc constructs, we identified a sequence of 748 base pairs which was sufficient for transcriptional activation by FGF2. These results led us to postulate that the inhibitory chondrogenic action of FGF2 involves a mechanism whereby MGP gene transcription and protein are induced

Endocrine disruptors target collagen type 2 maturation in chondrocytes in vitro – CIME project

Endocrine disruptors target collagen type 2 maturation in chondrocytes in vitro – CIME project. Colloque PNR-PE <National endocrine disruptor research program

Endocrine disruptors target chondrogenesis in vivo - CIME project

poster + communication oraleEndocrine disruptors target chondrogenesis in vivo - CIME project. Colloque PNR-PE <National endocrine disruptor research program

Sub-NOAEL amounts of vinclozolin and xenoestrogens target rat chondrogenesis in vivo

Several endocrine disrupting compounds (EDC) elicit skeletal dysgenesis at pharmacological doses. We have investigated the impact of doses below the "No Observed Adverse Effect" (NOAEL) for vinclozolin (V), an anti-androgenic fungicide, alone or associated with xenoestrogens (Genistein, G and bisphenol-A, BPA). V, G, BPA and their combinations were administered orally to female Wistar rats during gestation and lactation. F1 and F2 offspring were investigated for skeletal anomalies at post-natal days 30, 110 (d30, d110). Skeletal development was monitored by measuring caudal vertebrae and long bones dimensions by X-ray micro-CT-scan. A significant increase in Inter Transverse Apophysis (ITA) distance at the upper head of caudal vertebrae, associated with a reduction in vertebral body height was observed in treated F1 females, but not males. Histometrical analysis of vertebral body growth plate cartilage was performed on serial sections of caudal vertebrae. F1 females but not males showed a diminution in growth plate thickness, with greater impact on the hypertrophic zone. All effects were maximal at d30. Effects on ITA width persisted until d110 while effects on growth plate disappeared. These effects were essentially vinclozolin or BPA-dependent. F2 animals were not affected. Our data suggest that vinclozolin and xenoestrogens act as cartilage developmental disruptors. We suggest that present NOAEL values for these compounds, and EDC at large, might be reconsidered using gestational exposure models. Finally, micro CT-scan appears a valuable non-invasive technique to detect EDC effects on live fauna