Identification de modifications post-traductionnelles de Staufen1 et etude de leur fonction regulatrice.

摘要

Post-transcriptional regulation plays a major role in the fine tuning of gene expression by allowing a modulation of protein synthesis in space and time, according to cellular requirements. For instance, proteins recognizing RNA elements on transcripts can influence all the steps of their existence, such as their splicing, nuclear export, subcellular localization, translation and degradation. Staufen1 (Stau1) is a member of the double-stranded RNA-binding protein family that contributes to the post-transcriptional regulation of gene expression by its involvement in mechanisms that promote alternative splicing, transport, de-repression of translation and decay of specific messenger RNAs (mRNAs). The identity of potential Stau1 targets is now known as genome-wide analyses have shown that the protein is associated with about 7% of the HEK293T cell transcriptome. Although these mRNAs are classified in a broad range of functional categories, a large proportion of them code for proteins related to cellular metabolism and regulation of cellular processes. Considering all this information, we hypothesized that the different activities of Stau1 may be modulated in order to control appropriately the expression of Stau1-bound mRNAs.;Since some of the mRNAs that are part of Stau1-containing complexes encode key regulators of cell proliferation, we wanted to examine whether Stau1 expression fluctuates during the cell division cycle. We showed that Stau1 abundance peaks at the onset of mitosis and then decreases as cells complete division. We then found that Stau1 down-regulation in mitosis exit is mediated by the anaphase promoting complex/cyclosome (APC/C). To support the idea that Stau1 is a target of this E3-ubiquitin ligase, we further demonstrated that Stau1 is ubiquitinated and degraded by the proteasome. The importance of controlling Stau1 levels during the cell cycle is underscored by the observation that its overexpression delays mitotic exit and impairs cell proliferation.;Furthermore, we speculated that Stau1 different functions may also be regulated. In the view that the activities of numerous RNA-binding proteins can be controlled by post-translational modifications such as phosphorylation, we tested the possibility that Stau1 is phosphorylated. Mass spectrometry analysis of immunopurified Stau1 allowed the identification of three phosphosites in this protein. Assessment of the role of these phosphorylation events using phosphomimetic or non-phosphorylatable mutants revealed that Stau1 phosphorylation may compromise its association with Upf1. Because this interaction is necessary to elicit the destabilisation of Stau1-bound RNAs, our results strongly suggest that Stau1 function in mRNA decay is negatively regulated by its phosphorylation.;Collectively, these data highlight the importance of post-translational modifications such as ubiquitination and phosphorylation in the modulation of Stau1 expression and functions. Overall, the mechanisms that control Stau1 are likely to have a significant impact on the fate of Stau1-bound mRNAs, especially in the context of cell cycle progression.;Keywords : Staufen, messenger RNA, post-transcriptionnal regulation, cell cycle, anaphase promoting complex/cyclosome (APC/C), ubiquitination, phosphorylation.