Variations du niveau du lac d’Annecy (Haute‑Savoie, France) au cours de l’Holocène : implications paléoclimatiques et archéologiques

The activation of many genes requires the concerted effort of two or more transcription factors. Although C/EBP beta is known to cooperate with Myb to induce transcription of the granulocyte-specific mim-1 gene, the molecular mechanism of this cooperativity is undefined. We show that the N terminus of the full-length C/EBP beta isoform, which is essential for induction of the mim-1 gene in chromatin, interacts specifically with the SWI/SNF complex. Grafting this domain onto Myb generates a chimeric activator that recruits SWI/SNF and induces mim-1 transcription in the absence of C/EBP beta. Interaction between C/EBP beta and SWI/SNF is essential for activating a subgroup of resident target genes in chromatin and may represent a major determinant of combinatorial gene regulation in eukaryotes.

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Novel mechanism of C/EBP beta (NF-M) transcriptional control: activation through derepression.

Kowenz‐Leutz¹,

Twamley²,

Ansieau³

et al. 1994

Genes Dev.

208

244

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Phosphorylation of transcription factors is regarded as a major mechanism to control their activity in regulation of gene expression. C/EBPp is a transcription factor that becomes activated after phosphorylation to induce genes involved in inflammation, acute-phase response, cytokine expression, cell growth, and differentiation. The chicken homolog NF-M collaborates with Myb and various kinase oncogenes in normal myeloid differentiation as well as in the leukemic transformation of myelomonocytic cells. Here, we examined the structure of NF-M and its mechanism of activation. We show that NF-M is a repressed transcription factor with concealed activation potential. Derepressed NF-M exhibits enhanced transcriptional efficacy in reporter assays. More importantly, NF-M activates resident chromatin-embedded, myelomonocyte-specific target genes, even in heterologous cell types such as fibroblasts or erythroblasts. We identified two regions within NF-M that act to repress trans-activation. Repression is abolished by deletion of these regions, activation of signal transduction kinases including v-erbB, polyoma middle T, ras and mil/raf, or point mutation of a critical phosphorylation site for MAP kinases. We provide evidence that phosphorylation plays a unique role to derepress rather than to enhance the trans-activation domain as a novel mechanism to regulate gene expression by NF-M/C/EBPp.

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Myb and NF-M: combinatorial activators of myeloid genes in heterologous cell types.

Ness

Kowenz‐Leutz²,

Casini³

et al. 1993

Genes Dev.

268

222

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The c-Myb transcription factor regulates the differentiation of immature erythroid, lymphoid, and myeloid cells, although only the latter cells become transformed by the v-myb oncogene. These are also the only cells that express the Myb-regulated gene mira-l, suggesting that Myb requires tissue-specific, cooperating factors to activate such genes. Here, we investigated the tissue-specific regulation of the mdm-1 promoter and found that it not only contains binding sites for Myb but also for NF-M, a myeloid-specific transcription factor that probably corresponds to mammalian C/EBPI~. Both types of binding sites were found to be required for full activity of the promoter. Remarkably, ectopic coexpression of Myb and NF-M proteins in erythroid cells or fibroblasts was sufficient to induce endogenous markers of myeloid differentiation, like the mira-1 and lysozyme genes. Our results indicate that c-Myb and NF-M proteins act as a bipartite, combinatorial signal that regulates the expression of myeloid-specific genes, even in heterologous cell types.

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Phosphorylation of CREB affects its binding to high and low affinity sites: implications for cAMP induced gene transcription.

et al. 1992

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Cyclic AMP treatment of hepatoma cells leads to increased protein binding at the cyclic AMP response element (CRE) of the tyrosine aminotransferase (TAT) gene in vivo, as revealed by genomic footprinting, whereas no increase is observed at the CRE of the phosphoenolpyruvate carboxykinase (PEPCK) gene. Several criteria establish that the 43 kDa CREB protein is interacting with both of these sites. Two classes of CRE with different affinity for CREB are described. One class, including the TATCRE, is characterized by asymmetric and weak binding sites (CGTCA), whereas the second class containing symmetrical TGACGTCA sites shows a much higher binding affinity for CREB. Both classes show an increase in binding after phosphorylation of CREB by protein kinase A (PKA). An in vivo phosphorylation‐dependent change in binding of CREB increases the occupancy of weak binding sites used for transactivation, such as the TATCRE, while high affinity sites may have constitutive binding of transcriptionally active and inactive CREB dimers, as demonstrated by in vivo footprinting at the PEPCK CRE. Thus, lower basal level and higher relative stimulation of transcription by cyclic AMP through low affinity CREs should result, allowing finely tuned control of gene activation.

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Elisabeth Kowenz‐Leutz

A C/EBPβ Isoform Recruits the SWI/SNF Complex to Activate Myeloid Genes

Novel mechanism of C/EBP beta (NF-M) transcriptional control: activation through derepression.

Myb and NF-M: combinatorial activators of myeloid genes in heterologous cell types.

Phosphorylation of CREB affects its binding to high and low affinity sites: implications for cAMP induced gene transcription.

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