EC:2.3.1.28 - FACTA Search

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Query: EC:2.3.1.28 (chloramphenicol acetyltransferase)
5,100 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Colony-stimulating factors (CSFs) are glycoproteins that stimulate the growth of hematopoietic progenitors and enhance the functional activity of mature effector cells. Human granulocyte/macrophage colony-stimulating factor (GM-CSF) is a 22-kDa glycoprotein that stimulates the growth of myeloid and erythroid progenitors in vitro and increases the responsiveness of neutrophils, monocytes, and eosinophils to physiologic stimuli. Elucidation of the cell and tissue sources of CSFs, as well as study of their regulation of expression, is required to understand their role in physiologic and pathophysiologic states. An extensive survey of normal and neoplastic human tissues did not reveal constitutive production of detectable levels of GM-CSF mRNA in any of the 64 samples studied. Antigen- or lectin-activated T lymphocytes have been shown to produce GM-CSF; therefore, to elucidate the genetic sequences required, we constructed recombinant plasmids containing 5' flanking DNA of the GM-CSF gene linked to the marker chloramphenicol acetyltransferase gene. The recombinant constructs were transfected into a human T-cell leukemia virus type I (HTLV)-infected T-lymphoblast cell line that can be stimulated to produce high levels of GM-CSF. We show here that the 5' flanking sequences of the GM-CSF gene can direct increased expression of the chloramphenicol acetyltransferase gene in activated T-lymphoblast cells.
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PMID:Regulation of expression of human granulocyte/macrophage colony-stimulating factor. 349 Jun 69

Electroporation, the technique of electric field mediated gene transfer, was evaluated as a means of introducing and expressing genes into mouse Friend and human K562 erythroleukemic cells. Long-term (stable) gene expression in both Friend and K562 cells was measured using the recombinant plasmid Homer 6, which carries the aminoglycoside phosphotransferase (aph) gene as a selectable marker under the transcriptional control of the Moloney murine sarcoma virus long terminal repeat promoter/enhancer sequences. Parameters such as the DNA concentration, the initial field strength, the concentration of recipient cells, and the preselection expression time were examined to obtain optimal transfection frequencies. Short-term (transient) expression was also examined using the plasmid pLW4, which carries the chloramphenicol acetyltransferase gene under the transcriptional control of herpes simplex virus immediate early 5 gene promoter/enhancer sequences. Conditions that gave maximal stable transformation frequency were similar to those giving highest transient gene expression in the mouse and human erythroleukemic cell lines. Under optimal conditions, electroporation gave about ten times higher transfection frequencies and levels of transient expression for both types of cells when compared with the calcium phosphate technique. Because both Friend and K562 cells can be induced to differentiate in vitro, measurement of transient or stable expression levels for genes introduced into these cells may prove to be useful in the study of developmental regulation of genes from the erythroid pathway.
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PMID:Electric field-mediated gene transfer (electroporation) into mouse Friend and human K562 erythroleukemic cells. 350 89

Expression of fetal gamma-globin genes in individuals with the deletion forms of hereditary persistence of fetal hemoglobin (HPFH) has been attributed either to enhancement by 3' regulatory elements juxtaposed to gamma-globin genes or to deletion of gamma-gene silencers normally residing within the beta-globin gene cluster. In the present study, we tested the hypothesis of imported enhancers downstream of beta-globin gene using the HPFH-3 deletion as a model. The abnormal bridging fragment of 13.6 kilobases (kb) containing the A gamma-gene with its flanking sequences and 6.2 kb of the juxtaposed region was microinjected into fertilized mouse eggs. Twelve transgenic mice positive for the fragment were generated. Samples from 11.5-day yolk sacs, 16-day fetal liver, and adult blood were analyzed for A gamma-mRNA using RNase protection assays. Three mice lacked A gamma expression in the yolk sac indicating non-optimal integration site. Four expressed A gamma-mRNA at the embryonic stage only, while two expressed A gamma-mRNA in both embryonic and fetal liver erythroid cells. Since the A gamma-gene with its normal flanking sequences and in the absence of the locus control region is expressed only in embryonic cells of transgenic mice, these data suggest that the juxtaposed sequences have altered the developmental specificity of the fetal gamma-globin gene. These sequences were further tested for the presence of an enhancer element, by their ability to activate a fusion reporter gene consisting of the CAT gene linked to the gamma-globin gene promoter, in erythroid (K562) and non-erythroid (HeLa) cells. A 0.7-kb region located immediately 3' to the breakpoint, enhanced chloramphenicol acetyltransferase activity by 3-fold in erythroid cells. The enhancer also activated the embryonic epsilon-globin gene promoter by 2-fold but not the adult beta- or delta-globin gene promoters. The enhancer represents a region of previously known complex tandem repeats; in this study we have completed the sequencing of the region encompassing the 0.7-kb enhancer element. Multiple areas of the enhancer region exhibit homology to the core element of the simian virus 40 enhancer and to the sequences of the human 3' A gamma- and the chicken 3' beta-globin enhancers. A consensus binding site for the erythroid specific GATA-1 transcription factor and seven consensus sites for the ubiquitous CP1 transcription factor are also included within the enhancer. These data suggest that these sequences located immediately 3' to the breakpoint of the HPFH-3 deletion, exhibit both the structure and the function of an enhancer, and can modify the developmental specificity of the fetal gamma-globin genes, resulting in their continued expression during adult life.
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PMID:Sequences located 3' to the breakpoint of the hereditary persistence of fetal hemoglobin-3 deletion exhibit enhancer activity and can modify the developmental expression of the human fetal A gamma-globin gene in transgenic mice. 753 67

Zinc finger genes encode proteins that act as transcription factors. The myeloid zinc finger 1 (MZF1) gene encodes a zinc finger protein with two DNA-binding domains that recognize two distinct consensus sequences, is preferentially expressed in hematopoietic cells, and may be involved in the transcriptional regulation of hematopoiesis-specific genes. Reverse transcription-PCR analysis of human peripheral blood CD34+ cells cultured under lineage-restricted conditions demonstrated MZF1 expression during both myeloid and erythroid differentiation. Sequence analysis of the 5'-flanking region of the CD34 and c-myb genes, which are a marker of and a transcriptional factor required for hematopoietic proliferation and differentiation, respectively, revealed closely spaced MZF1 consensus binding sites found by electrophoretic mobility shift assays to interact with recombinant MZF1 protein. Transient or constitutive MZF1 expression in different cell types resulted in specific inhibition of chloramphenicol acetyltransferase activity driven by the CD34 or c-myb 5'-flanking region. To determine whether transcriptional modulation by MZF1 activity plays a role in hematopoietic differentiation, constructs containing the MZF1 cDNA under the control of different promoters were transfected into murine embryonic stem cells which, under defined in vitro culture conditions, generate colonies of multiple hematopoietic lineages. Constitutive MZF1 expression interfered with the ability of embryonic stem cells to undergo hematopoietic commitment and erythromyeloid colony formation and prevented the induced expression of CD34 and c-myb mRNAs during differentiation of these cells. These data indicate that MZF1 plays a critical role in hematopoiesis by modulating the expression of genes involved in this process.
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PMID:Overexpression of the zinc finger protein MZF1 inhibits hematopoietic development from embryonic stem cells: correlation with negative regulation of CD34 and c-myb promoter activity. 756 60

The mechanisms that regulate the expression of ferritin, the iron storage protein, have been investigated in Friend erythroleukemia cells (FLCs) induced to differentiate by several chemical compounds. In differentiating FLCs, administration of hemin increases the steady-state level of ferritin mRNA about 15-fold and the ferritin content about 20- to 25-fold. Conversely, iron salts have only mild stimulatory effects on these parameters and iron chelators only slightly inhibited the stimulatory effect of hemin. Transient transfection experiments with a construct in which the human ferritin H-chain promoter drives the expression of the indicator chloramphenicol acetyltransferase (CAT) gene show that the increase in mRNA content is mainly due to enhanced transcription. In addition to transcriptional effects, translational regulation resulting in the further increase in ferritin synthesis is shown by CAT assays from cells transiently transfected with a construct containing the coding region for the indicator CAT mRNA under the translational control of the mRNA ferritin iron-responsive element. We conclude that, in FLCs induced to differentiate, hemin acts synergistically with the differentiation inducers, increasing ferritin expression. Both transcriptional and translational mechanisms are responsible for this synergistic effect, which appears to be characteristic of differentiated erythroid cells because it is not observed in other cell types (ie, fibroblastic cell lines).
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PMID:Regulation of ferritin H-chain expression in differentiating Friend leukemia cells. 763 66

Overexpression of adenosine deaminase (ADA) in red blood cells is characterized by a marked, tissue-specific increase in levels of structurally normal ADA mRNA and enzymatic activity in the erythrocytes of affected individuals, leading to adenosine triphosphate (ATP) depletion and hemolytic anemia. This autosomal dominant trait is linked to the ADA gene. To investigate the molecular mechanism responsible for this disorder, we examined relative reporter gene activity using constructs containing 10.6 kb of 5' flanking sequence and 12.3 kb of the first intron of the ADA gene from the normal and mutant alleles. No differences in chloramphenicol acetyltransferase (CAT) activity were found in transient transfection experiments using erythroleukemia cell lines. Transgenic mice containing the ADA constructs expressed CAT in the appropriate tissue-specific fashion, with 10(2)- to 10(4)-fold higher activity in the thymus. However, CAT activities in erythrocytes and bone marrow of mice containing high transgene copy numbers did not differ between the normal and mutant alleles. These results indicate that the mutation responsible for ADA overexpression is unlikely to reside in the 5' and promoter regions or in the regulatory regions of the first intron. It is possible that the erythroid-specific overexpression of ADA results from a mutation at some distance from the gene or requires an interaction of a proximal mutation with more distal DNA elements.
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PMID:Hereditary overexpression of adenosine deaminase in erythrocytes: studies in erythroid cell lines and transgenic mice. 791 52

The housekeeping enzyme 5-aminolevulinate synthase (ALAS) regulates the supply of heme for respiratory cytochromes. Here we report on the isolation of a genomic clone for the rat ALAS gene. The 5'-flanking region was fused to the chloramphenicol acetyltransferase gene and transient expression analysis revealed the presence of both positive and negative cis-acting sequences. Expression was substantially increased by the inclusion of the first intron located in the 5'-untranslated region. Sequence analysis of the promoter identified two elements at positions -59 and -88 bp with strong similarity to the binding site for nuclear respiratory factor 1 (NRF-1). Gel shift analysis revealed that both NRF-1 elements formed nucleoprotein complexes which could be abolished by an authentic NRF-1 oligomer. Mutagenesis of each NRF-1 motif in the ALAS promoter gave substantially lowered levels of chloramphenicol acetyltransferase expression, whereas mutagenesis of both NRF-1 motifs resulted in the almost complete loss of expression. These results establish that the NRF-1 motifs in the ALAS promoter are critical for promoter activity. NRF-1 binding sites have been identified in the promoters of several nuclear genes encoding mitochondrial proteins concerned with oxidative phosphorylation. The present studies suggest that NRF-1 may co-ordinate the supply of mitochondrial heme with the synthesis of respiratory cytochromes by regulating expression of ALAS. In erythroid cells, NRF-1 may be less important for controlling heme levels since an erythroid ALAS gene is strongly expressed and the promoter for this gene apparently lacks NRF-1 binding sites.
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PMID:Identification of regulatory sequences in the gene for 5-aminolevulinate synthase from rat. 809 50

Inappropriate expression of the Evi-1 zinc-finger gene in hematopoietic cells has been associated with acute myelogenous leukemia and myelodysplastic syndromes in murine models and in humans. Consistent with this, previous studies have shown that aberrant expression of the Evi-1 gene in a myeloid progenitor cell line blocks granulocytic differentiation. Here we demonstrate that the aberrant expression of the Evi-1 gene impairs the normal response of erythroid cells or bone-marrow progenitors to erythropoietin. Erythroid differentiation has been shown to require the GATA-1 transcription factor that binds to a sequence contained within the consensus binding sequence identified for Evi-1. In the studies presented here we also show that Evi-1 can repress GATA-1-dependent transactivation in transient chloramphenicol acetyltransferase assays. Together the data support the hypothesis that inappropriate expression of the Evi-1 gene blocks erythropoiesis by repressing the transcription of a subset of GATA-1 target genes.
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PMID:Loss of erythropoietin responsiveness in erythroid progenitors due to expression of the Evi-1 myeloid-transforming gene. 834 54

We have previously identified a novel first exon of Duffy gene and two inverse GATA motifs in the 600 bp 5' flanking region. The proximal GATA is positioned downstream from the start position of endothelium and upstream from that of erythroid. One base substitution (-365T --> C) was found in the proximal GATA motif from three black Fy(a-b-) individuals, and was regarded as a common polymorphic mutation in black Fy(a-b-) individuals. The upstream sequence of the novel first exon was inserted in the upstream of chloramphenicol acetyltransferase (CAT) gene and transfected in human erythroleukemia cell line (HEL) and human microvascular endothelial cells (HMvEC). The black type mutation abolished the CAT transcription in HEL cells but not in HMvEC. Deletion mutagenesis study revealed that the proximal GATA motif represent the erythroid regulatory core region for Duffy gene. Gel shift assay showed that the proximal GATA motif is the target sequence of GATA-1. These studies indicate that the black type mutation abolishes Duffy gene expression in erythroid but not in postcapillary venule endothelium, which is compatible with the Northern blot and immunohistochemical observation in black Fy(a-b-) individuals.
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PMID:Characterization of the Duffy gene promoter: evidence for tissue-specific abolishment of expression in Fy(a-b-) of black individuals. 865 34

The locus control region (LCR) regulates transcription of the downstream beta-like globin genes 10 to 50 kb away. Among hypersensitive sites HS4, -3, -2, and -1, which define the LCR in erythroid cells, HS2 possesses prominent enhancer function. The mechanism by which the HS2 enhancer and other functional components of the LCR act over the distance is not clear. We have used reverse transcription-PCR and RNase protection assays to analyze the transcriptional statuses of both the endogenous and the transfected HS2 enhancer in erythroid K562 cells. A novel pattern of HS2 enhancer transcription was observed. The endogenous HS2 enhancer was transcribed predominantly in the direction toward the downstream globin genes. The HS2 enhancer in transfected recombinant chloramphenicol acetyltransferase (CAT) plasmids was also transcribed predominantly toward the CAT gene, regardless of whether the enhancer was placed (i) in the genomic or reverse genomic orientation, (ii) in a position 5' or 3' to the gene, or (iii) at various distances up to 6 kb from the gene. The orientation, position, and distance independence in gene-tropic transcription of the HS2 enhancer correlates with the observed orientation, position, and distance independence of HS2 enhancer function and suggests that enhancer transcription may play a role in enhancer function.
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PMID:Transcription of the HS2 enhancer toward a cis-linked gene is independent of the orientation, position, and distance of the enhancer relative to the gene. 919 30

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