Sex‐dependent effects of 17‐beta‐estradiol on chondrocyte differentiation in culture

Abstract

This study examined the effects of 17-beta-estradiol (E₂) on chondrocyte differentiation in vitro. Cells derived from male or female rat costochondral growth zone and resting zone cartilage were used to determine whether the effects of E₂ were dependent on the stage of chondrocyte maturation and whether they were sex-specific. [³H]-incorporation, cell number, alkaline phosphatase specific activity, and percent collagen production were used as indicators of differentiation. Alakaline phosphatase specific activity in matrix vesicles and plasma membranes isolated from female chondrocyte cultures was measured to determine which membrane fraction was targeted by the hormone. Specificity of the E₂ effects was assessed using 17-alpha-estradiol. The role of fetal bovine serum and phenol red in the culture medium was also addressed. The results demonstrated that E₂ decreases cell number and [³H]-incorporation in female chondrocytes, indicating that it promotes differentiation of these cells. Alkaline phosphatase specific activity is stimulated in both growth zone and resting zone cells, but the effect is greater in the less mature resting zone chondrocytes. The increase in enzyme activity is targeted to the matrix vesicles in both cell types, but the fold increase is greater in the growth zone cells. In male chondrocytes, there was a decrease in [³H]-incorporation at high E₂ concentrations in resting zone cells at the earliest time point examined (12 hours) and a slight stimulation in alkaline phosphatase activity in growth zone cells at 24 hours. Cells cultured in serum-free medium exhibited a dose-dependent inhibition in alkaline phosphatase activity when cultured with E₂, even in the presence of phenol red. E₂-stimulation of enzyme activity is seen only in the presence of serum, suggesting that serum factors are also necessary. E₂ increased percent collagen production in female cells only; the magnitude of the effect was greatest in the resting zone chondrocyte cultures. The results of this study indicate that the effects of E₂ are dependent on time of exposure, presence of serum, and the sex and state of maturation of the chondrocytes. E₂-stimulation of alkaline phosphatase specific activity is targeted to matrix vesicles.