Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0009443 (cold)
92,137 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human DNA-binding proteins, dbpA and dbpB (YB-1), are members of a protein family containing a cold-shock domain, and are regarded as transcriptional regulators. Here, we isolated genomic fragments of these genes and characterized their transcriptional regulation. Analysis of lambda phage genomic clones revealed that the dbpA gene consists of 10 exons spanning a 24-kb genomic region. The cold-shock domain, composed of about 70 amino acid residues, is encoded separately by exons 2-5. The exon 6, encoding 69 amino acid residues, was found to be an alternative exon. Northern-blot analysis showed that both genes were highly expressed in skeletal muscle and heart compared with in other tissues. The dbpA gene contains no typical TATA box or CAAT box at the immediate 5' region, but a sequence similar to an initiator consensus sequence was revealed at a major transcription-start site. A transient expression assay using the chloramphenicol acetyltransferase reporter gene revealed that the sequence located at positions -17 to +70 relative to the major transcription-start site was critical for promoter function. Within this region, the consensus sequence for serum-response element, CC(A/T)6GG, is present at positions -13 to -4 in addition to the initiator sequence. Immunofluorescence showed the cellular localization of dbpA to be both in the cytoplasm and nucleus, particularly at the perinuclear region. In situ hybridization demonstrated the localization of the dbpA gene on chromosome 12 band p13.1, whereas dbpB-(YB-1)-related genes were dispersed on many chromosomes with strongest hybridization signals on chromosome 1. All 16 dbpB (YB-1) clones, isolated from the same genomic library used for dbpA genomic cloning, were processed genes because of their intronless structures and multiple mutations. One of these processed genes possesses an open reading frame, which encodes most of the amino acid residues of dbpB (YB-1). These results indicate that dbpA and dbpB (YB-1) genes evolved in different fashions after deviation from a common ancestral gene.
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PMID:Characterization of the gene for dbpA, a family member of the nucleic-acid-binding proteins containing a cold-shock domain. 762 87

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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PMID:Cold shock domain proteins repress transcription from the GM-CSF promoter. 871 May 1

The highly conserved grp78 core promoter element plays an important role in the induction of grp78 under diverse stress signals. Previous studies have established a functional region in the 3' half of the core (stress-inducible change region [SICR]) which exhibits stress-inducible changes in stressed nuclei. The human transcription factor YY1 is shown to bind the SICR and transactivate the core element under stress conditions. Here we report that expression library screening with the core element has identified two new core binding proteins, YB-1 and dbpA. Both proteins belong to the Y-box family of proteins characterized by an evolutionarily conserved DNA binding motif, the cold shock domain (CSD). In contrast to YY1, which binds only double-stranded SICR, the Y-box/CSD proteins much prefer the lower strand of the SICR. The Y-box proteins can repress the inducibility of the grp78 core element mediated by treatment of cells with A23187, thapsigargin, and tunicamycin. In gel shift assays, YY1 binding to the core element is inhibited by either YB-1 or dbpA. A yeast interaction trap screen using LexA-YY1 as a bait and a HeLa cell cDNA-acid patch fusion library identified YB-1 as a YY1-interacting protein. In cotransfection experiments, the Y-box proteins antagonize the YY1-mediated enhancement of transcription directed by the grp78 core in stressed cells. Thus, the CSD proteins may be part of the stress signal transduction mechanism in the mammalian system.
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PMID:Suppression of grp78 core promoter element-mediated stress induction by the dbpA and dbpB (YB-1) cold shock domain proteins. 897 86

The human Y-box protein (YB-1) is a member of a family of DNA-binding proteins containing a highly conserved cold shock domain. The genomic organization of the human YB-1 gene was determined from five overlapping genomic clones that encompassed all exons of the gene. Sequence analysis of these clones revealed that human YB-1 spans approximately 19 kb of genomic DNA and contains eight exons. The cold shock domain is encoded by exons 1-5. Both exon-splitting and codon-splitting in the region of the gene encoding the cold shock domain are similar to those in the corresponding region of another Y-box binding protein, dbpA. Exon-intron structures and nucleotide sequences of the regions encoding the N-terminal and C-terminal domains of the two proteins differ markedly between YB-1 and dbpA. These observations suggest that YB-1 and dbpA arose by duplication of a common ancestral gene encoding all these domains.
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PMID:Genomic organization of the human Y-box protein (YB-1) gene. 946 20

Cold shock domain (CSD) family members have been shown to play roles in either transcriptional activation or repression of many genes in various cell types. We have previously shown that CSD proteins dbpAv and dbpB (also known as YB-1) act to repress granulocyte-macrophage colony-stimulating factor transcription in human embryonic lung (HEL) fibroblasts via binding to single-stranded DNA regions across the promoter. Here we show that the same CSD factors are involved in granulocyte-macrophage colony-stimulating factor transcriptional activation in Jurkat T cells. Unlike the mechanisms of CSD repression in HEL fibroblasts, CSD-mediated activation in Jurkat T cells is not mediated through DNA binding but presumably through protein-protein interactions via the C terminus of the CSD protein with transcription factors such as RelA/NF-kappaB p65. We demonstrate that Jurkat T cells lack truncated CSD factor subtypes present in HEL fibroblasts, which raises the possibility that the cellular content of CSD proteins may determine their final role as activators or repressors of transcription.
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PMID:Cold shock domain factors activate the granulocyte-macrophage colony-stimulating factor promoter in stimulated Jurkat T cells. 1111 54

Human DNA-binding protein (dbpA) is a member of a Y-box binding protein family containing a cold shock domain. The increased expression of Y box binding proteins in somatic cells is associated with cell proliferation and transformation. Recently, we isolated a splicing variant of dbpA as a candidate for the cellular recombinogenic protein that leads to genomic instability and inflammation-mediated hepatocarcinogenesis. The expression of dbpA is enhanced in proliferating cells, but the manner in which it regulates transcription is largely unknown. In this study, we analyzed the transcriptional regulatory region of dbpA, and searched for the mutation in this region by a direct sequence method. In 3 of 55 human hepatocellular carcinoma (HCC) cases, we identified one nucleotide replacement (T right curved arrow G transversion) in nucleotide position -6 of the promoter region. Among 3 cases showing this transversion, one HCC case was due to a somatic mutation and the other two were due to single nucleotide polymorphism (SNP). By luciferase assay, we showed that the transcriptional activity of the promoter region with the transversion was significantly higher than that of the wild-type. Using the Southwestern blotting, we also confirmed the existence of a cellular proteins (about 25 and 50 kDa) that specifically bind to the sequence with this transversion. Our results suggested the biological significance of the transversion of dbpA's promoter region as one of the factors accelerating hepatocarcinogenesis.
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PMID:Somatic mutation and SNP in the promoter of dbpA and human hepatocarcinogenesis. 1223 25

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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PMID: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. 1243 87

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 GSK3beta in vitro, and the binding of dbpB to single-strand 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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PMID:Phosphorylation of cold shock domain/Y-box proteins by ERK2 and GSK3beta and repression of the human VEGF promoter. 1619 52

Y-box-binding proteins are members of the human cold-shock domain protein superfamily, which includes dbpA, dbpB/YB-1, and dbpC/contrin. dbpC/contrin is a germ cell-specific Y-box-binding protein and is suggested to function as a nuclear transcription factor and RNA-binding protein in the cytoplasm. Whereas ubiquitous dbpB/YB-1 expression has been well studied in various types of human carcinomas as a prognostic or predictive marker, the dbpC/contrin expression in human tumour cells has not been reported. In this report, we provide the first evidence showing that dbpC was highly expressed in human testicular seminoma and ovarian dysgerminomas, and in carcinomas in other tissues and that its expression in normal tissues is nearly restricted to germ cells and placental trophoblasts. These results indicate that dbpC/contrin would be a potentially novel cancer/testis antigen.
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PMID:Expression of Y-box-binding protein dbpC/contrin, a potentially new cancer/testis antigen. 1647 55

The two cold shock domain containing proteins, Y-box-binding protein-1 and cold shock domain protein A were immunolocalized in developing and adult human brain. With the exception of a small population of hypothalamic astrocytes, brain Y-box-binding protein-1 was predominantly found in multiple neurons in the mature human CNS, which might be related to its involvement in neurotransmission and other neuron-associated functions. Cold shock domain protein A was typically observed in astrocytes, oligodendrocytes, choroid plexus epithelia and nerve fibers. However, in circumscribed brain regions as hypothalamus, habenula, and cerebellum, this protein was also expressed in neurons. In the prenatal brain, both proteins were found to be abundantly expressed in radial glial cells, neuroblasts and neurons, which might be an anatomical correlate of the proposed roles of both proteins in cell proliferation and differentiation. In addition, Y-box-binding protein-1 was identified in cultured, lipopolysaccharide-stimulated microglial cells, which underscores its putative role as a mediator in immune and inflammatory processes.
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PMID:Differential distribution of Y-box-binding protein 1 and cold shock domain protein A in developing and adult human brain. 2493 17


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