Abstract
Overexpression of the Ski pro-oncogene has been shown to induce myogenesis in non-muscle cells, to promote muscle hypertrophy in postnatal mice, and to activate transcription of muscle-specific genes. However, the precise role of Ski in muscle cell differentiation and its underlying molecular mechanism are not fully understood. To elucidate the involvement of Ski in muscle terminal differentiation, two retroviral systems were used to achieve conditional overexpression or knockdown of Ski in satellite cell-derived C2C12 myoblasts. We found that enforced expression of Ski promoted differentiation, whereas loss of Ski severely impaired it. Compromised terminal differentiation in the absence of Ski was likely because of the failure to induce myogenin (Myog) and p21 despite normal expression of MyoD. Chromatin immunoprecipitation and transcriptional reporter experiments showed that Ski occupied the endogenous Myog regulatory region and activated transcription from the Myog regulatory region upon differentiation. Transactivation of Myog was largely dependent on a MEF3 site bound by Six1, not on the binding site of MyoD or MEF2. Activation of the MEF3 site required direct interaction of Ski with Six1 and Eya3 mediated by the evolutionarily conserved Dachshund homology domain of Ski. Our results indicate that Ski is necessary for muscle terminal differentiation and that it exerts this role, at least in part, through its association with Six1 and Eya3 to regulate the Myog transcription.
Highlights
Ski does not bind DNA directly [28] but interacts with several different transcription factors to modulate transcription as either a co-activator or a co-repressor depending on its DNA binding partner
To assess the role of Ski in terminal differentiation independent of its possible role in myogenic lineage determination, C2C12 cells that have already committed to myogenic fate and require only serum deprivation to undergo terminal differentiation were used in this study
The role of Ski in terminal differentiation has been evidenced by its ability to induce myogenesis in non-muscle cells in vitro and hypertrophy of type II fast muscle of adult mice when it was overexpressed (29 –32)
Summary
Ski does not bind DNA directly [28] but interacts with several different transcription factors to modulate transcription as either a co-activator or a co-repressor depending on its DNA binding partner. This has led to the suggestion that by virtue of its possession of these conserved domains [7, 10, 12] Ski might interact with Six and Eya proteins to regulate Myog expression and thereby control commitment of myogenic cells to terminal differentiation [52].
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