Abstract
The mitogen-responsive, ETS-domain transcription factor ELK-1 stimulates the expression of immediate early genes at the onset of the cell cycle and participates in early developmental programming. ELK-1 is subject to multiple levels of posttranslational control, including phosphorylation, SUMOylation, and ubiquitination. Recently, removal of monoubiquitin from the ELK-1 ETS domain by the Ubiquitin Specific Protease USP17 was shown to augment ELK-1 transcriptional activity and promote cell proliferation. Here we have used coimmunoprecipitation experiments, protein turnover and ubiquitination assays, RNA-interference and gene expression analyses to examine the possibility that USP17 acts antagonistically with the F-box protein FBXO25, an E3 ubiquitin ligase previously shown to promote ELK-1 ubiquitination and degradation. Our data confirm that FBXO25 and ELK-1 interact in HEK293T cells and that FBXO25 is active toward Hand1 and HAX1, two of its other candidate substrates. However, our data indicate that FBXO25 neither promotes ubiquitination of ELK-1 nor impacts on its transcriptional activity and suggest that an E3 ubiquitin ligase other than FBXO25 regulates ELK-1 ubiquitination and function.
Highlights
In multicellular organisms, the importance of restricting cell proliferation is such that mitogen-responsive transcription factors are subject to multiple levels of control
Reversible ELK-1 monoubiquitination may play a pivotal role in coordinating cell proliferation during early development, and it follows that the E3 ubiquitin ligase responsible for monoubiquitination of ELK-1 is central to this regulatory mechanism
FBXO25 activity was confirmed with two other candidate substrates, we were unable to detect ubiquitination of ELK-1 or modulation of its function by FBXO25, as previously reported [22]
Summary
Reyna Sara Quintero-Barceinas‡, Franziska Gehringer‡, Charles Ducker , Janice Saxton, and Peter E. Shaw* From the Transcription and Signal Transduction Lab, School of Life Sciences, Queen’s Medical Centre, University of Nottingham, Nottingham, UK
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