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1.
Leukemia ; 22(12): 2201-7, 2008 Dec.
Article in English | MEDLINE | ID: mdl-18769450

ABSTRACT

On activation, umbilical cord blood (UCB) CD4(+) T cells demonstrate reduced expression of tumor necrosis factor-alpha (TNF-alpha) and interferon-gamma (IFN-gamma), whereas maintaining equivalent interleukin-2 (IL-2) levels, as compared with adult peripheral blood (PB) CD4(+) T cells. Nuclear factor of activated T cells (NFAT1) protein, a transcription factor known to regulate the expression of IL-2, TNF-alpha and IFN-gamma, is reduced in resting and activated UCB CD4(+) T cells. In contrast, expression of Broad-complex-Tramtrack-Bric-a-Brac and Cap'n'collar homology 1 bZip transcription factor 2 (BACH2) was shown by gene array analyses to be increased in UCB CD4(+) T cells and was validated by qRT-PCR. Using chromatin immunoprecipitation, BACH2 was shown binding to the human IL-2 proximal promoter. Knockdown experiments of BACH2 by transient transfection of UCB CD4(+) T cells with BACH2 siRNA resulted in significant reductions in stimulated IL-2 production. Decreased IL-2 gene transcription in UCB CD4(+) T cells transfected with BACH2 siRNA was confirmed by a human IL-2 luciferase assay. In summary, BACH2 maintains IL-2 expression in UCB CD4(+) T cells at levels equivalent to adult PB CD4(+) T cells despite reduced NFAT1 protein expression. Thus, BACH2 expression is necessary to maintain IL-2 production when NFAT1 protein is reduced, potentially impacting UCB graft CD4(+) T-cell allogeneic responses.


Subject(s)
Basic-Leucine Zipper Transcription Factors/metabolism , CD4-Positive T-Lymphocytes/physiology , Fetal Blood/cytology , Interleukin-2/genetics , Base Sequence , Basic-Leucine Zipper Transcription Factors/genetics , CD4-Positive T-Lymphocytes/cytology , Cell Line, Tumor , Gene Expression/immunology , Genes, Reporter , Humans , Immune Tolerance/genetics , Immune Tolerance/physiology , NFATC Transcription Factors/metabolism , Promoter Regions, Genetic/immunology , Promoter Regions, Genetic/physiology , RNA, Messenger/metabolism , RNA, Small Interfering , Th1 Cells/cytology , Th1 Cells/physiology , Transfection , Umbilical Cord
2.
J Virol ; 77(2): 1059-68, 2003 Jan.
Article in English | MEDLINE | ID: mdl-12502821

ABSTRACT

The c-myb oncogene is a frequent target for retroviral activation in hemopoietic tumors of avian and mammalian species. While insertions can target the gene directly, numerous clusters of retroviral insertion sites have been identified which map close to c-myb and outside the transcription unit in T-lymphomas (Ahi-1, fit-1, and Mis-2) and monocytic and myeloid leukemias (Mml1, Mml2, Mml3, and Epi-1). Previous analyses showed no consistent effect of these insertions on c-myb expression, raising the possibility that other nearby genes were the true targets. In contrast, our analysis of four cell lines established from lymphomas bearing insertions at fit-1 (fti-1) (feline leukemia virus) and Ahi-1 (Moloney murine leukemia virus) shows that these display higher expression levels of c-myb RNA and protein compared to a panel of phenotypically similar cell lines lacking such insertions. An interesting feature of the cell lines with long-range c-myb insertions was that each also carried an activated Myc allele. The potential for oncogenic synergy between Myb and Myc in T-cell lymphoma was confirmed in transgenic mice overexpressing alleles of both genes in the T-cell compartment, lending further credence to the case for c-myb as the major target for long-range activation. In contrast, mapping and analysis of c-myb neighboring genes (HBS1 and FLJ20069) showed that the expression of these genes did not correlate well with the presence of proviral insertions. A possible explanation for the paradoxical behavior of c-myb was provided by one of the murine T-lymphoma lines bearing an insertion at Ahi-1 (p/m16i) that reproducibly down-regulated c-myb RNA and protein to very low levels or undetectable levels on prolonged culture. Our observations implicate c-myb as a key target of upstream and downstream retroviral insertions. However, overexpression may become dispensable during outgrowth in vitro, and perhaps during tumor progression in vivo, providing a potential rationale for the previously observed discordance between retroviral insertion and c-myb expression levels.


Subject(s)
Gene Silencing , Genes, myb , Lymphoma, T-Cell/genetics , Retroviridae/genetics , Animals , Base Sequence , Cats , Cell Division , DNA Primers , Genome , Humans , In Vitro Techniques , Lymphoma, T-Cell/pathology , Mice , Tumor Cells, Cultured
3.
Oncogene ; 20(43): 6205-14, 2001 Sep 27.
Article in English | MEDLINE | ID: mdl-11593429

ABSTRACT

Deregulated expression of the proto-oncogene c-myb, which results from provirus integration, is thought to be responsible for transformation in a set of murine leukemia virus (MuLV)-induced myeloid leukemias (MML). We reported recently that this transcription factor promotes proliferation by directly transactivating c-myc and inhibits cell death through its up-regulation of Bcl-2 (Schmidt et al., 2000). To understand more about how these cells become transformed we looked at how they deal with cellular pathways inducing growth arrest. Specifically, we were interested in the expression of the tumor suppressor gene Cdkn2b (p15(INK4b)) in MML because this gene is expressed during myeloid differentiation and its inactivation by methylation has been shown to be important for the development of human acute myeloid leukemia. mRNA levels for p15(INK4b) and another INK4 gene p16(INK4a) were examined in monocytic Myb tumors and were compared with expression of the same genes in c-myc transformed monocytic tumors that do not express c-Myb. The Cdkn2a (p16(INK4a)) gene was generally not expressed in either tumor type, an observation explained by methylation or deletion in the promoter region. Although Cdkn2b (p15(INK4b)) mRNA was expressed in the Myc tumors, many transcripts were aberrant in size and contained only exon 1. Surprisingly, in the majority of the Myb tumors there was no p15(INK4b) transcription and neither deletion nor methylation could explain this result. Additional experiments demonstrated that, in the presence of constitutive c-Myb expression, the induction of p15(INK4b) mRNA that accompanies differentiation of M1 cells to monocytes does not occur. Therefore, the transcriptional regulator c-Myb appears to prevent activation of a growth arrest pathway that normally accompanies monocyte maturation.


Subject(s)
Carrier Proteins/metabolism , Cell Cycle Proteins , Cyclin-Dependent Kinase Inhibitor p16 , Gene Expression Regulation, Neoplastic , Leukemia, Myeloid/metabolism , Proto-Oncogene Proteins c-myb/metabolism , Tumor Suppressor Proteins , Up-Regulation , Animals , Blotting, Northern , Blotting, Western , Cell Differentiation , CpG Islands , Cyclin-Dependent Kinase Inhibitor p15 , DNA, Complementary/metabolism , Exons , Genes, myc/genetics , Interleukin-6/metabolism , Mice , Mice, Inbred BALB C , Models, Genetic , Polymerase Chain Reaction , Promoter Regions, Genetic , Proto-Oncogene Mas , RNA, Messenger/metabolism , Tumor Cells, Cultured
4.
J Biol Chem ; 276(42): 38795-807, 2001 Oct 19.
Article in English | MEDLINE | ID: mdl-11489895

ABSTRACT

Human tumor endothelial marker 1/endosialin (TEM1/endosialin) was recently identified as a novel tumor endothelial cell surface marker potentially involved in angiogenesis, although no specific function for this novel gene has been assigned so far. It was reported to be expressed in tumor endothelium but not in normal endothelium with the exception of perhaps the corpus luteum. Here we describe the cDNA and genomic sequences for the mouse Tem1/endosialin homolog, the identification and characterization of its promoter region, and an extensive characterization of its expression pattern in murine and human tissues and murine cell lines in vitro. The single copy gene that was mapped to chromosome 19 is intronless and encodes a 92-kDa protein that has 77.5% overall homology to the human protein. The remarkable findings are 1) this gene is ubiquitously expressed in normal human and mouse somatic tissues and during development, and 2) its expression at the mRNA level is density-dependent and up-regulated in serum-starved cells. In vitro, its expression is limited to cells of embryonic, endothelial, and preadipocyte origin, suggesting that the wide distribution of its expression in vivo is due to the presence of vascular endothelial cells in all the tissues. The ubiquitous expression in vivo is in contrast to previously reported expression limited to corpus luteum and highly angiogenic tissues such as tumors and wound tissue.


Subject(s)
Membrane Proteins/biosynthesis , Membrane Proteins/genetics , Neoplasm Proteins/biosynthesis , Neoplasm Proteins/genetics , 3T3 Cells , Amino Acid Sequence , Animals , Antigens, CD , Antigens, Neoplasm , Base Sequence , Blotting, Northern , Blotting, Southern , Blotting, Western , Cell Division , Cell Line , Cells, Cultured , Chromosome Mapping , Chromosomes, Human, Pair 19 , Corpus Luteum/metabolism , Crosses, Genetic , DNA, Complementary/metabolism , Endothelium, Vascular/cytology , Female , Gene Library , Humans , Immunohistochemistry , In Situ Hybridization , Introns , Luciferases/metabolism , Mice , Mice, Inbred C57BL , Microscopy, Confocal , Microscopy, Fluorescence , Models, Genetic , Molecular Sequence Data , Promoter Regions, Genetic , Protein Binding , Reverse Transcriptase Polymerase Chain Reaction , Tissue Distribution , Transcription, Genetic , Up-Regulation
5.
Blood Cells Mol Dis ; 27(2): 483-8, 2001.
Article in English | MEDLINE | ID: mdl-11259171

ABSTRACT

The proto-oncogene c-myb is constitutively expressed in murine leukemia virus-induced myeloid leukemia (MML) due to the integration of virus at this locus. Our recent focus has been the determination of genes regulated by this transcription factor that may be involved in transformation. Data presented here, using conditional expression of Myb in myeloid cells, show that c-Myb directly transactivates the endogenous c-myc and Bcl-2 genes, which explains at least in part how c-Myb regulates proliferation and survival. In addition, c-Myb prevents expression at the RNA level of the tumor suppressor INK4b gene. This gene encodes a cyclin-dependent kinase inhibitor, p15INK4b, that is normally upregulated at the mRNA level during myeloid differentiation and promotes growth arrest. The MMLs are generally characterized as differentiated monocytic tumors and possess the phenotype that is normally associated with p15INK4b expression. c-Myb inhibits expression of this gene, however, and therefore acts to promote a pathway which is abnormal in mature cells. This activity of c-Myb collaborates with its maintenance of c-myc expression to promote growth.


Subject(s)
Cell Transformation, Neoplastic/genetics , Gene Expression Regulation, Neoplastic , Genes, myb , Tumor Suppressor Proteins , Animals , Cell Cycle Proteins/genetics , Cell Line , Cyclin-Dependent Kinase Inhibitor p15 , Cyclin-Dependent Kinase Inhibitor p16/genetics , Genes, bcl-2 , Genes, myc , Leukocytes/pathology
6.
Genetics ; 144(3): 893-903, 1996 Nov.
Article in English | MEDLINE | ID: mdl-8913736

ABSTRACT

The ACO1 gene, encoding mitochondrial aconitase of Saccharomyces cerevisiae, is required both for oxidative metabolism and for glutamate prototrophy. This gene is subject to catabolite repression; the ACOI mRNA level is further reduced when glutamate is supplied with glucose. To further explore regulation of ACOI expression, we have screened for mutations that reduce expression of an ACOI-lacZ fusion borne on a multicopy vector. We identified a gene required for wild-type expression of ACOI only under catabolite repression conditions. Sequencing of the corresponding cloned gene revealed that it is identical to RTG2 previously cloned as a pivotal gene in controlling interorganelle retrograde communication. Cells containing either the original rtg2-2 mutation or a null rtg2 allele are not petite but show a residual growth on minimum glucose medium with ammonium sulfate as the sole nitrogen source. This growth defect is partially restored by supplying aspartate or threonine, and fully with glutamate or proline supplement. Surprisingly, this phenotype is not observed on complete medium lacking either of these amino acids. In addition, a genetic analysis revealed an interaction between RTG2 and ASP5 (encoding aspartate amino transferase), thus supporting our hypothesis that RTG2 may be involved in the control of several anaplerotic pathways.


Subject(s)
Aconitate Hydratase/genetics , Antigens, Fungal/genetics , Aspartate Aminotransferases/genetics , Fungal Proteins/genetics , Gene Expression Regulation, Fungal , Saccharomyces cerevisiae Proteins , Saccharomyces cerevisiae/genetics , Chromosome Mapping , Cloning, Molecular , Intracellular Signaling Peptides and Proteins , Mutagenesis , Phenotype , Recombinant Fusion Proteins/genetics , Sequence Analysis, DNA
7.
Eur J Biochem ; 239(3): 759-63, 1996 Aug 01.
Article in English | MEDLINE | ID: mdl-8774724

ABSTRACT

The mitochondrial ADP/ATP carrier in Saccharomyces cerevisiae is encoded by three independent genes. AAC1, AAC2, and AAC3. In this work, we analysed the 5' upstream region of AAC1 by sequencing and by mapping the transcription initiation site of the gene. By monitoring the level of AAC1 mRNA and the beta-galactosidase activity of AAC1-lacZ fusion constructs, we showed that expression of AAC1 is subjected to regulation by oxygen. In contrast to the other two AAC genes, the effect of oxygen on AAC1 is not mediated by heme and heme-dependent transcription factors. The AAC1 expression was reduced eightfold in anaerobically grown cells compared to expression in cells grown aerobically, but it was not affected by the nature of carbon source used for growth. The data presented show that AAC1 expression, while constitutive under all aerobic conditions tested, is repressed during anaerobiosis in a heme-independent manner.


Subject(s)
Gene Expression Regulation, Fungal , Mitochondria/enzymology , Mitochondrial ADP, ATP Translocases/genetics , Oxygen/pharmacology , Saccharomyces cerevisiae/genetics , Transcription, Genetic , Aerobiosis , Anaerobiosis , Base Sequence , Enzyme Repression , Genes, Fungal , Genes, Reporter , Heme/pharmacology , Mitochondrial ADP, ATP Translocases/biosynthesis , Molecular Sequence Data , Mutation , RNA, Fungal/analysis , RNA, Fungal/genetics , RNA, Messenger/analysis , RNA, Messenger/genetics , Recombinant Proteins , Regulatory Sequences, Nucleic Acid , Saccharomyces cerevisiae/enzymology , Sequence Analysis, DNA , Transcription Factors/metabolism
10.
Eur J Biochem ; 229(3): 651-7, 1995 May 01.
Article in English | MEDLINE | ID: mdl-7758459

ABSTRACT

Expression of the Saccharomyces cerevisiae AAC2 gene encoding the major mitochondrial ADP/ATP carrier was examined. The intracellular level of the carrier protein, as well as the level of the AAC2-gene-specific mRNA, is influenced by the presence or absence of oxygen or of heme, and it is subject to carbon-source control. In addition, the expression of AAC2 gene requires the products of the HAP2 and HAP3 genes, but not that of the HAP1 gene. The 5'-flanking region of the gene was isolated, sequenced and fused to the lacZ reporter gene in order to study the effect of carbon sources and of specific deletion mutations on expression of the gene in yeast transformants. The expression of the reporter gene reveals that the AAC2 gene possesses a strong inducible promoter. The promoter analysis, combined with expression studies in the wild-type as well as in various mutant strains, identified an upstream activation site (UAS) contained within a sequence between -393 bp and -268 bp, and several major initiation sites of AAC2 mRNA between -105bp and -95 bp. Deletion analysis also shows that the TATA boxes located 45 bp and 104 bp upstream of the 5'-ends of AAC2 mRNA are not essential for the transcription. The UAS of the AAC2 gene is required for activation by HAP2 and heme and for release from glucose repressin. A restriction fragment containing the UAS conferred oxygen and carbon source regulation when placed upstream of another yeast gene encoding ADP/ATP carrier (AAC3), deleted of its regulatory sequences. The UAS of the AAC2 gene contains at least two distinct motifs for DNA-binding transcriptional activators, including one which is identical with the core HAP2/3/4 binding motif, and a second one with the ABF1 consensus binding sequence. Our results indicate that these sequences mediate the effects of the respective transactivator on the oxygen- and carbon-source-dependent transcription of the AAC2 gene.


Subject(s)
CCAAT-Binding Factor , Fungal Proteins/pharmacology , Gene Expression Regulation, Fungal/drug effects , Heme/pharmacology , Mitochondrial ADP, ATP Translocases/genetics , Oxygen/pharmacology , Saccharomyces cerevisiae/genetics , Transcription Factors/pharmacology , Base Sequence , Consensus Sequence , Fungal Proteins/genetics , Genes, Fungal , Mitochondria/enzymology , Mitochondrial ADP, ATP Translocases/biosynthesis , Molecular Sequence Data , Promoter Regions, Genetic/genetics , RNA, Messenger/biosynthesis , Saccharomyces cerevisiae/metabolism , Transcription Factors/genetics , Transcription, Genetic
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