Leeanne S. Coles scite author profile

The human granulocyte-macrophage colony stimulating factor (GM-CSF) gene promoter binds a sequence-specific single-strand DNA binding protein termed NF-GMb. We previously demonstrated that the NF-GMb binding sites were required for repression of tumor necrosis factor-alpha (TNF-alpha) induction of the proximal GM-CSF promoter sequences in fibroblasts. We now describe the isolation of two different cDNA clones that encode cold shock domain (CSD) proteins with NF-GMb binding characteristics. One is identical to the previously reported CSD protein dbpB and the other is a previously unreported variant of the dbpA CSD factor. This is the first report of CSD factors binding to a cytokine gene. Nuclear NF-GMb and expressed CSD proteins have the same binding specificity for the GM-CSF promoter and other CSD binding sites. We present evidence that CSD factors are components of the nuclear NF-GMb complex. We also demonstrate that overexpression of the CSD proteins leads to complete repression of the proximal GM-CSF promoter containing the NF-GMb/CSD binding sites. Surprisingly, we show that CSD overexpression can also directly repress a region of the promoter which apparently lacks NF-GMb/CSD binding sites. NF-GMb/CSD factors may hence be acting by two different mechanisms. We discuss the potential importance of CSD factors in maintaining strict regulation of the GM-CSF gene.

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High Mobility Group Protein I(Y) Is Required for Function and for c-Rel Binding to CD28 Response Elements within the GM-CSF and IL-2 Promoters

Himes

Coles

Reeves

et al. 1996

Immunity

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CD28 response elements (CD28REs) within cytokine promoters are variant NF-kappaB-binding sites and are essential for transcription in response to CD28 receptor activation in T cells. We show that the CK-1 element (CD28RE) within the GM-CSF promoter binds the RelA and c-Rel transcription factors in response to CD28 activation. We further show that the high mobility group protein HMG I(Y) can bind to the CD28REs of both GM-CSF and IL-2 and that this binding is critical for c-Rel, but not RelA, binding. A second NF-kappaB site in the GM-CSF promoter that binds p50 and RelA, but neither c-Rel nor HMG I(Y), failed to respond to CD28 activation. Expression of HMG I or c-Rel antisense RNA inhibited CD28 activation of the IL-2 and GM-CSF promoters, implying that HMG I(Y) enhancement of c-Rel binding plays an important role in the activity of the CD28REs.

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Signals for Activation of the GM-CSF Promoter and Enhancer in T Cells

et al. 1997

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A multi‐protein complex containing cold shock domain (Y‐box) and polypyrimidine tract binding proteins forms on the vascular endothelial growth factor mRNA

Coles

Bartley

Bert

et al. 2004

European Journal of Biochemistry

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Vascular endothelial growth factor (VEGF) is a key regulator of angiogenesis and post‐transcriptional regulation plays a major role in VEGF expression. Both the 5′‐ and 3′‐UTR are required for VEGF post‐transcriptional regulation but factors binding to functional sequences within the 5′‐UTR have not been fully characterized. We report here the identification of complexes, binding to the VEGFmRNA 5′‐ and 3′‐UTR, that contain cold shock domain (CSD) and polypyrimidine tract binding (PTB) RNA binding proteins. Analysis of the CSD/PTB binding sites revealed a potential role in VEGF mRNA stability, in both noninduced and induced conditions, demonstrating a general stabilizing function. Such a stabilizing mechanism had not been reported previously for the VEGF gene. We further found that the CSD/PTB‐containing complexes are large multiprotein complexes that are most likely preformed in solution and we demonstrate that PTB is associated with the VEGF mRNA in vivo. Complex formation between CSD proteins and PTB has not been reported previously. Analysis of the CSD/PTB RNA binding sites revealed a novel CSD protein RNA recognition site and also demonstrated that CSD proteins may direct the binding of CSD/PTB complexes. We found the same complexes binding to an RNA‐stabilizing element of another growth factor gene, suggesting a broader functional role for the CSD/PTB complexes. Finally, as the VEGF gene is also regulated at the transcriptional level by CSD proteins, we propose a combined transcriptional/post‐transcriptional role for these proteins in VEGF and other growth factor gene regulation.

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Phosphorylation of cold shock domain/Y‐box proteins by ERK2 and GSK3β and repression of the human VEGF promoter

et al. 2005

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The hypoxia responsive region (HRR) of the VEGF promoter plays a key role in regulating VEGF expression. We found that the cold shock domain (Y-box) repressor proteins, dbpA and dbpB/YB-1, bind distinct strands of the human VEGF HRR. We find both dbpA and dbpB are phosphorylated by ERK2 and GSK3b in vitro, and the binding of dbpB to singlestrand VEGF HRR DNA is regulated by this phosphorylation. These findings suggest the ERK/MAPK and PI3K pathways may regulate VEGF expression in part through regulating the action of these repressor proteins.

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H2A.F: an extremely variant histone H2A sequence expressed in the chicken embryo.

Harvey¹,

Whiting²,

Coles³

et al. 1983

Proc. Natl. Acad. Sci. U.S.A.

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A cDNA clone bank has been constructed from chicken embryonic RNA. Clones hybridizing poorly to embryonic histone gene probes were selected as possible variant gene transcripts. The DNA sequence of one cDNA predicts an extremely variant H2A protein (H2A.F), which is 40% divergent from the most abundant H2A protein in chicken erythrocyte chromatin. The H2A.F gene is not highly conserved across large species barriers, but in the chicken there may be a family of linked genes. The H2A.F mRNA is approximately equal to 820 base pairs in length and, unlike most other histone mRNAs, is polyadenylylated. Significantly, the H2A.F transcript shows a limited tissue distribution in the chicken embryo.

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A novel mechanism of repression of the vascular endothelial growth factor promoter, by single strand DNA binding cold shock domain (Y-box) proteins in normoxic fibroblasts

Coles

Diamond

Lambrusco

et al. 2002

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Overexpression of vascular endothelial growth factor (VEGF) is implicated in a number of diseases. It is therefore critical that mechanisms exist to strictly regulate VEGF expression. A hypoxia-responsive (HR) region of the VEGF promoter which binds the HIF-1 transcription factor is a target for many signals that up-regulate VEGF transcription. Repressors targeting the HIF-1 transcription factor have been identified but no repressors directly binding the HR promoter region had been reported. We now report a novel mechanism of repression of the VEGF HR region involving DNA binding. We find that single strand DNA-specific cold shock domain (CSD or Y-box) proteins repress the HR region via a binding site downstream of the HIF-1 site. The repressor site is functional in unstimulated, normoxic fibroblasts and represents a novel means to prevent expression of VEGF in the absence of appropriate stimuli. We characterized complexes forming on the VEGF repressor site and identified a previously unreported nuclear CSD protein complex containing dbpA. Nuclear dbpA appears to bind as a dimer and we determined a means by which nuclear CSD proteins may enter double strand DNA to bind to their single strand sites to bring about repression of the VEGF HR region.

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An Ordered Array of Cold Shock Domain Repressor Elements across Tumor Necrosis Factor-responsive Elements of the Granulocyte-Macrophage Colony-stimulating Factor Promoter

Coles¹,

Diamond²,

Occhiodoro³

et al. 2000

Journal of Biological Chemistry

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The tumor necrosis factor-␣-responsive region of the human granulocyte-macrophage colony-stimulating factor (GM-CSF) promoter (؊114 to ؊31) encompasses binding sites for NF-B, CBF, AP-1, ETS, and NFAT families of transcription factors. We show both here and previously that mutation of any one of these binding sites greatly reduces tumor necrosis factor-␣ induction of the GM-CSF promoter. Interspersed between these elements are sequences that when mutated lead to an increase in GM-CSF promoter activity. We have previously shown that two of these repressor elements bind proteins known as cold shock domain (CSD) factors and that overexpression of CSD proteins leads to repression of GM-CSF promoter activity in fibroblasts. CSD proteins are single strand DNA-and RNA-binding proteins that contact 5-CCTG-3 sequences in the GM-CSF repressor elements. We show here that two newly identified repressor sequences in the proximal promoter can also bind CSD proteins. We have characterized the CSDcontaining protein complexes that bind to the GM-CSF promoter and identified a novel protein related to mitochondrial single strand binding protein that forms part of one of these complexes. The four CSD-binding sites on the promoter occur in pairs on opposite strands of the DNA and appear to form an ordered array of binding elements. A similar ordered array of CSD sites are present in the promoters of the granulocyte colony-stimulating factor and interleukin-3 genes, implying a common mechanism for negative regulation of these myeloid growth factors.

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Leeanne S. Coles

Cold Shock Domain Proteins Repress Transcription from the GM-CSF Promoter

High Mobility Group Protein I(Y) Is Required for Function and for c-Rel Binding to CD28 Response Elements within the GM-CSF and IL-2 Promoters

Signals for Activation of the GM-CSF Promoter and Enhancer in T Cells

A multi‐protein complex containing cold shock domain (Y‐box) and polypyrimidine tract binding proteins forms on the vascular endothelial growth factor mRNA

Phosphorylation of cold shock domain/Y‐box proteins by ERK2 and GSK3β and repression of the human VEGF promoter

H2A.F: an extremely variant histone H2A sequence expressed in the chicken embryo.

A novel mechanism of repression of the vascular endothelial growth factor promoter, by single strand DNA binding cold shock domain (Y-box) proteins in normoxic fibroblasts

An Ordered Array of Cold Shock Domain Repressor Elements across Tumor Necrosis Factor-responsive Elements of the Granulocyte-Macrophage Colony-stimulating Factor Promoter

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