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MSK activity and H3 phosphorylation mediate chromatin remodeling required for expression of immediate-early genes

Normal cellular behaviour in multicellular organisms is achieved by tight control of signaling pathway networks. The mitogen-activated protein kinase (MAPK) signaling cascade is one of these signaling networks, that when deregulated can lead to cellular transformation. Activation of the RAS-RAF-MEK-MAPK (ERK) signal transduction pathway or the SAPK2/p38 pathway results in the activation of mitogen- and stress-activated protein kinases 1 and 2 (MSK1/2). Subsequently, MSKs go on to phosphorylate histone H3 at Ser10 and Ser28.Here, we demonstrate that the activities of ERK and MSK1, but not p38, are elevated in Hras-transformed cells (Ciras-3) relative to these activities in the parental 10T1⁄2 cells. Analyses of
the subcellular distribution of MSK1 showed that the H3 kinase was similarly distributed in Ciras-3 and 10T1/2 cells, with most MSK1 being present in the nucleus. In contrast to many other chromatin modifying enzymes, MSK1 was loosely bound in the nucleus and was not a component of the nuclear matrix. Our results provide evidence that oncogene-mediated
activation of the RAS-MAPK signal transduction pathway elevates the activity of MSK1, resulting in the increased steady-state levels of phosphorylated H3, which may contribute to the chromatin decondensation and aberrant gene expression observed in oncogene-transformed cells.
Furthermore, upon activation of the ERK and p38 MAPK pathways, the MSK1/2-
mediated nucleosomal response, including H3 phosphorylation at serine 28 or 10, is coupled with the induction of immediate-early gene transcription. The outcome of this response, varying with the stimuli and cellular contexts, ranges from neoplastic transformation to neuronal synaptic plasticity. Here, we used sequential co-immunoprecipitation assays and chromatin immunoprecipitation (ChIP) assays on mouse fibroblast 10T1/2, Ciras-3 and MSK1 knockdown 10T1/2 cells to show that H3 serine 28 and 10 phosphorylation leads to promoter remodeling. MSK1, in complexes with phospho-serine adaptor 14-3-3 proteins and BRG1 (the ATPase
subunit of the SWI/SNF remodeler) is recruited to the promoter of target genes by transcription factors such as ELK-1 or NFκB. Following MSK1-mediated H3 phosphorylation, BRG1 associates with the promoter of target genes via 14-3-3 proteins, which act as scaffolds. The recruited SWI/SNF remodels nucleosomes at the promoter of immediate-early genes enabling
the binding of transcription factors like JUN and the onset of transcription. Since RAS-MAPK activated MSKs mediate H3 phosphorylation that is required for expression of various immediate-early gene products involved in cellular transformation, inhibition of MSK activity may be a therapeutic target that could be exploited in cancers with upregulated RAS-MAPK signaling.

Identiferoai:union.ndltd.org:MANITOBA/oai:mspace.lib.umanitoba.ca:1993/3953
Date09 April 2010
CreatorsDrobic, Bojan
ContributorsDavie, James R. (Biochemsitry and Medical Genetics), Eisenstat, David (Human Anatomy and Cell Science) Gibson, Spencer (Biochemsitry and Medical Genetics) Wilkins, John (Biochemsitry and Medical Genetics) Cheung, Peter (Ontario Cancer Institute)
Source SetsUniversity of Manitoba Canada
Languageen_US
Detected LanguageEnglish

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