Transcriptional Regulation of Fibrillin-2 Gene by E2F Family Members in Chondrocyte Differentiation

Mutation in fibrillin-2, a major structural component of extracellular microfibrils in connective tissue, results in the autosomal dominant disease congenital contractural arachnodactyly. This genetic disease is characterized by dolichostenomelia and arachnodactyly, in addition to contractures of the large joints and abnormal pinnae formation, thus indicating the significance of fibrillin-2 in chondrogenesis. In this study, we investigated the transcriptional regulation of fibrillin-2 in chondrogenic differentiation. Although mRNA expression of fibrillin-1, a highly homologous protein to fibrillin-2, remained almost unchanged during chondrogenesis of mouse ATDC5 cells, fibrillin-2 mRNA expression varied. Fibrillin-2 was highly expressed at the early stage and declined progressively during differentiation. The 5'-flanking region of the fibrillin-2 gene contains potential binding sites for E2F, Runx, AP-2, and Sox transcription factors. The promoter activity of fibrillin-2 decreased markedly following deletion and mutagenesis of the E2F binding site between -143 and -136 bp. Overexpression of E2F I resulted in a marked increase in its promoter activity, whereas expression of other transcription factors including AP-2 alpha and Runx2 had no effect. The increase in promoter activity by E2F1 was completely suppressed by the coexpression of E2F4, E2F2 and E2F3 had positive effects on the promoter activity. Although ATDC5 cells expressed transcripts for the E2F family genes at all stages of differentiation, the expression profiles differed. E2F1 expression remained almost unchanged, whereas E2F4 expression increased markedly at the late stage of differentiation. These results indicated that coordinated expression of the E2F family is critical for the transcriptional regulation of fibrillin-2 during chondrogenesis. J. Cell. Biochem. 106: 580-588, 2009. (C) 2009 Wiley-Liss, Inc.