Abstract of a presentation at a conference of the International Cartilage Repair Society.Purpose: The goal was to investigate potential roles played by vitamin D in the regulation of joint cartilage biology. We studied the expression of two central elements of vitamin D metabolism, namely the vitamin D receptor and its converting enzyme 1αhydroxylase in human knee cartilage and chondrocytes.
Methods and Materials: Expression of receptor and enzyme was determined by immunohistochemistry/immunofluorescence, reversetranscriptase PCR and western blot on differentiated, dedifferentiated and redifferentiated chondrocytes. Cartilage was harvested from a macroscopically healthy looking area of the lateral femoral condyle during knee replacement surgery in 4 otherwise healthy patients aged 5070. Suspension cultures of differentiated chondrocytes were established by short enzymatic digestion of cartilage using Collagenase XI and further incubation in nonadherent vessels. Dedifferentiated cells were the result of serial expansion of chondrocytes during 4 weeks after isolation in monolayers cultures. Chondrocyte redifferentiation was achieved by propagating cell pellets for 3 weeks in the presence of chondroinductive morphogens.
Results: Both protein and gene expression of vitamin D receptor appear to be very low or undetectable in native cartilage and/or differentiated chondrocytes. In contrast, receptor expression was upregulated in dedifferentiated cells after monolayer expansion, however, this upregulation was lost when cells regained chondrogenic phenotype in 3D pellets. The expression of 1αhydroxylase was observed on the superficial layer of chondrocytes in native cartilage, which correlated with weak but detectable outcomes by PCR and western blot on differentiated cultures. Similarly, levels of the enzyme were increased after cell expansion in monolayers and decreased in 3D pellet cultures.
Conclusion: Our study uncover a previously unknown regulation of vitamin D receptor between differentiated and redifferentiated phenotypes in cartilage cells. Furthermore, this study is pioneering on investigating the expression of 1αhydroxylase in cartilage tissue and chondrocytes. Further work is needed to ascertain if receptor and enzyme expression is regulated in disease conditions or affected by inflammatory environments
