Unraveling the transcriptional regulatory machinery in chondrogenesis
- PMID: 21594584
- PMCID: PMC3354916
- DOI: 10.1007/s00774-011-0273-9
Unraveling the transcriptional regulatory machinery in chondrogenesis
Abstract
Since the discovery of SOX9 mutations in the severe human skeletal malformation syndrome campomelic dysplasia in 1994, Sox9 was shown to be both required and sufficient for chondrocyte specification and differentiation. At the same time, its distant relatives Sox5 and Sox6 were shown to act in redundancy with each other to robustly enhance its functions. The Sox trio is currently best known for its ability to activate the genes for cartilage-specific extracellular matrix components. Sox9 and Sox5/6 homodimerize through domains adjacent to their Sry-related high-mobility-group DNA-binding domain to increase the efficiency of their cooperative binding to chondrocyte-specific enhancers. Sox9 possesses a potent transactivation domain and thereby recruits diverse transcriptional co-activators, histone-modifying enzymes, subunits of the mediator complex, and components of the general transcriptional machinery, such as CBP/p300, Med12, Med25, and Wwp2. This information helps us begin to unravel the mechanisms responsible for Sox9-mediated transcription. We review here the discovery of this master chondrogenic trio and its roles in chondrogenesis in vivo and at the molecular level, and we discuss how these pioneering studies open the way for many additional studies that are needed to further increase our understanding of the transcriptional regulatory machinery operating in chondrogenesis.
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References
-
- Savagner P, Krebsbach PH, Hatano O, Miyashita T, Liebman J, Yamada Y. Collagen II promoter and enhancer interact synergistically through Sp1 and distinct nuclear factors. DNA Cell Biol. 1995;14:501–510. - PubMed
-
- Krebsbach PH, Nakata K, Bernier SM, Hatano O, Miyashita T, Rhodes CS, Yamada Y. Identification of a minimum enhancer sequence for the type II collagen gene reveals several core sequence motifs in common with the link protein gene. J Biol Chem. 1996;271:4298–4303. - PubMed
-
- Lefebvre V, Garofalo S, Zhou G, Metsaranta M, Vuorio E, De Crombrugghe B. Characterization of primary cultures of chondrocytes from type II collagen/beta-galactosidase transgenic mice. Matrix Biol. 1994;14:329–335. - PubMed
-
- Mukhopadhyay K, Lefebvre V, Zhou G, Garofalo S, Kimura JH, de Crombrugghe B. Use of a new rat chondrosarcoma cell line to delineate a 119-base pair chondrocyte-specific enhancer element and to define active promoter segments in the mouse pro-alpha 1(II) collagen gene. J Biol Chem. 1995;270:27711–27719. - PubMed
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