EC:2.5.1.61 - FACTA Search

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Query: EC:2.5.1.61 (porphobilinogen deaminase)
637 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Previous studies have shown that a -112 to +78 DNA fragment from the erythroid promoter of the human porphobilinogen deaminase (PBGD) gene has erythroid-specific activity. This PBGD-(-112 to +78) promoter contains a CCACC binding site (position -100), a GATA binding site (position -70) and an initiator element around the cap site. Using a cotransfection assay, we find that the human factor GATA-1 trans-activates the PBGD-(-112 to +78) promoter in non-erythroid cells. We show that, if trans-activation is abolished by mutations that destroy either the -100 CCACC binding or the -70 GATA binding sites, replacement of the -100 CCACC binding site by a simian-virus-40-protein-1 (Sp1) binding site maintains both the erythroid-specific activity of this promoter and the human GATA-1 trans-activation. Thus, human GATA-1 acts on the PBGD promoter in association with Sp1 or CCACC binding proteins. This PBGD-(-112 to +78) promoter is activated 20-fold by a cis-linked 5' hypersensitive site 2 (5'HS-2) of the human beta-globin locus control region. This activation depends on the -70 GATA and -100 CCACC or Sp1 binding sites. When a longer -714 to +78 fragment of the PBGD promoter is used, the -70 GATA mutant still displays erythroid-specific activity and is cis-activated by the 5'HS-2 enhancer, while the -100 CCACC mutant is completely inactive in the absence or in the presence of the 5'HS-2 enhancer. Thus, the -100 CCACC binding site is indispensable for the correct activity and sensitivity of the human PBGD promoter to the 5'HS-2 enhancer, whereas the -70 GATA binding site can functionally be replaced by upstream cis-acting elements.
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PMID:CCACC-binding or simian-virus-40-protein-1-binding proteins cooperate with human GATA-1 to direct erythroid-specific transcription and to mediate 5' hypersensitive site 2 sensitivity of a TATA-less promoter. 838 11

Anthracycline antitumor drugs, particularly aclacinomycin (ACM) have been shown to be potent inducers of erythroid differentiation in human leukemic K562 cells. Here we report that such an event is associated with an overexpression of the erythroid-specific transcription factors GATA-1 and NFE-2. Using the electrophoretic mobility shift assay, during differentiation over 3 days of culture, we have observed an increase in the binding either of GATA-1 to the promoter of the gamma-globin gene (region -201 to -156) or NFE-2 to the promotor of the porphobilinogen deaminase gene (region -170 to -142). Both events were paralleled by a recruitment of hemoglobinized cells and a stimulation of heme synthesis. Enhanced binding capacity of GATA-1 was confirmed by an increase in its mRNAs. Moreover, GATA-1 and NFE-2 overexpression has been shown to be specific of the differentiating effect of the drug and not of its growth inhibitory effect. In contrast, no change was observed in the binding of the ubiquitous factors OTF-1 and AP-1, except on day 3, where AP-1 decreased. Although ACM is a DNA-intercalating agent, it did not directly affect transcription factors binding to their cis-sequences as assessed by the preincubation of the oligonucleotides probes with increasing concentrations of ACM. Taken together, these results strongly suggest that ACM could exert their erythroid-differentiating activity by modulating the expression of transcription factors which specifically regulate the transcription of erythroid genes.
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PMID:Increased expression of GATA-1 and NFE-2 erythroid-specific transcription factors during aclacinomycin-mediated differentiation of human erythroleukemic cells. 844 49

The nuclear DNA-binding protein NF-E2 is thought to mediate the powerful erythroid enhancer activity of the alpha- and beta-globin locus control regions and participates in the control of genes encoding two enzymes of haem biosynthesis (porphobilinogen deaminase and ferrochelatase). The major component of NF-E2 is a 45K polypeptide (designated p45 NF-E2) that belongs to the basic region-leucine zipper family of transcription factors. This subunit of NF-E2 is specifically expressed in haematopoietic progenitor cells and differentiated cells of the erythroid, megakaryocyte and mast cell lineages. The gene encoding p45 NF-E2 (murine gene Nfe2) has been mapped to mouse chromosome 15 near the mutation microcytosis (mk). Homozygous mk mice have severe hypochromic microcytic anaemia as a result of decreased globin synthesis and defects in intestinal and erythroid iron absorption. Here we investigate whether the mk mutation lies within Nfe2 by characterizing the p45 NF-E2 gene and determining its DNA sequence in wild-type and mk alleles. The mk allele carries a missense mutation that causes substitution of valine by alanine at amino acid 173 of the p45 NF-E2 protein. Expression of p45 NF-E2 messenger RNA was detected in erythroid tissues of normal mice and in the duodenum of normal and severely anaemic beta-thalassaemic (Hbbd-th3/Hbbd-th3) mice. We propose that the mk mutation results in an impaired form of NF-E2 which fails to regulate both globin production and iron metabolism properly.
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PMID:Mouse microcytic anaemia caused by a defect in the gene encoding the globin enhancer-binding protein NF-E2. 846 89

AP-1/NF-E2 motifs found in erythroid transcription control elements are associated with powerful transcription activation and thought to be regulated by the erythroid transcription factor NF-E2. We have studied AP-1/NF-E2 motifs from three different erythroid control elements (5'HS2 of the human beta-globin locus control region [LCR], the porphobilinogen deaminase [PBGD] promoter, and the mouse Band 3 promoter). We find that these AP-1/NF-E2 elements differ both in their ability to bind NF-E2 and their activity in transient assays. Each of the elements is bound by AP-1, but only the 5'HS2 and PBGD sites are bound by NF-E2. We examined the activity of these sites in minimal promoter constructs in transient assays. In erythroid cells, activity of duplicated NF-E2 motifs is positively correlated with binding by NF-E2; however, the Band 3 element not bound by NF-E2 is also active in some contexts. In HeLa cells, all sites were active and duplicated sites were most active. In F9 mouse teratocarcinoma cells, which express neither NF-E2 nor AP-1, the elements' activity parallels that in erythroid cells. While these finding are consistent with other evidence that NF-E2 is an important regulator of erythroid transcription, they suggest that some sites that resemble NF-E2 elements are actually regulated by other factors; we speculate that other tissue-specific and/or generally expressed factors may act on these sites.
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PMID:Erythroid AP-1/NF-E2 elements vary in their response to NF-E2. 859 74

Human erythroleukemic K 562 cells were induced to were induced to differentiate along the erythroid lineage by anthracycline antitumor drugs, such as aclacinomycin (ACLA) and doxorubicin (DOX). Subsequent stimulation of heme and globin synthesis led to a differential quantitative expression of hemoglobins. Gower 1 (epsilon2, zeta2) was the major type for ACLA and X (epsilon2, gamma2) for DOX. Although ACLA and DOX increased both the expression of gamma-globin and porphobilinogen deaminase mRNAs, striking differences were observed in the expression of erythropoietin receptor mRNAs and in erythroid transcription factors GATA-1 and NF-E2, known to play a key role in erythroid gene regulation. Indeed, ACLA induces an increase either in the binding capacity of GATA-1 and NF-E2 or in the accumulation of erythropoietin receptor, GATA-1 and NF-E2 transcripts. In contrast, their expression with DOX was not significantly modified compared to uninduced cells, except for a slight decrease in NF-E2 expression on day 3. In conclusion, these data show that: 1. increased expression of erythroid transcription factors and erythroid genes are associated only with ACLA treatment, and 2. although cytotoxicity of both ACLA and DOX is certainly dependent on DNA intercalation, regulation of differentiation processes by these two drugs involves distinct mechanisms.
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PMID:Evidence for distinct regulation processes in the aclacinomycin- and doxorubicin-mediated differentiation of human erythroleukemic cells. 860 80

Anthracycline antitumor drugs such as aclacinomycin (ACM) and doxorubicin (DOX) used in subtoxic concentrations induce erythroid differentiation of the erythroleukemic cell line K562. To elucidate the possible role of erythroid genes of the erythropoietin receptor (EpoR) and the transcription factor GATA-1 in this effect, the regulatory regions of the above genes and human epsilon- and gamma-globin and porphobilinogen deaminase (PBGD) genes were fused to the firefly luciferase gene. The resulting reporter constructs were tested in a transfection assay of the erythroleukemic cell line K562 stimulated to differentiate by treatment with the anthracycline drugs ACM and DOX or hemin (HEM). The results showed activation of the tested promoters after cell treatment with ACM, but not with DOX or HEM. In contrast to the mouse EpoR gene promoter, the activity of the human EpoR gene promoter (-659/-60) in the reporter construct was not modified by addition of the first intron sequence. In ACM-treated K562 cells, EpoR gene promoter activity completely correlated with EpoR and GATA-1 mRNA levels and the degree of erythroid maturation. In addition, ACM strongly activated the erythroid gene promoters that contain GATA binding sites. Nevertheless, less activation was also observed for the GATA-1 gene promoter (-312/-31) lacking any known GATA binding sites. Insertion of the GATA-1 gene enhancer with two canonic GATA binding sites, stimulated the ACM activation effect for EpoR and GATA-1 promoter-containing constructs. Mutation of the enhancer GATA binding sites abolished this effect. All the regulatory regions tested (except gamma-globin promoter) were completely inactive in nonerythroid COS7 cells. These data indicate that (1) two structurally different anthracycline analogues, DOX and ACM, differ in their differentiation mechanisms, and (2) ACM switches on the erythroid program of K562 cells, at least in part because of interaction with a factor(s) that recognizes the GATA binding sites in the promoter region of erythroid genes leading to their activation.
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PMID:Activation of erythroid-specific promoters during anthracycline-induced differentiation of K562 cells. 863 8

Recombinant human erythropoietin (r-HuEPO) is being successfully used for the treatment of uremic anemia. Several abnormalities of heme biosynthetic pathway have been described in patients with end-stage renal failure. In this condition, the activity of erythrocyte porphobilinogen deaminase has been found to be slightly increased. If this enzyme were to be the key enzyme in erythroid heme regulation, its activity would be increased to an even greater degree during the correction of uremic anemia. To assess this hypothesis, this study followed the variations of this and other parameters of porphyrin metabolism over 12 months of erythropoietin therapy in eight patients with nephrogenic anemia who underwent hemodialysis. By the first month of therapy, an increase of the previously depressed erythrocyte activity of aminolevulinate dehydratase was already evident, in coincidence with a nonsignificant increase of the reticulocyte count. The activity of this enzyme reached its maximal level by Month 3, and did not change up to Month 10. The porphobilinogen deaminase hyperactivity normalized at Month 4. By Month 12, in coincidence with the reduction of erythropoietin doses, the maximal levels of erythrocyte protoporphyrin, and the decrease in aminolevulinate dehydratase activity, the porphobilinogen deaminase values started to increase once again. In conclusion, the administration of r-HuEPO to hemodialyzed patients induced transient normalization of the previously observed porphyrin metabolism abnormalities. However, erythrocyte porphobilinogen deaminase activity did not rise concomitantly with the increase in hematocrit or hemoglobin values, but it did diminish during treatment. Therefore, porphobilinogen deaminase did not behave as a controlling enzyme in heme synthesis during the r-HuEPO-induced correction of uremic anemia.
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PMID:Effects of recombinant human erythropoietin on porphyrin metabolism in uremic patients on hemodialysis. 873 13

Aclacinomycin (ACLA) and doxorubicin (DOX) were used at subtoxic concentrations to induce erythroid differentiation in the human leukemic cell line K562. Cell hemoglobinization was accompanied by the increased expression of genes encoding gamma-globin and porphobilinogen deaminase (PBGD), an enzyme of heme synthesis. By using run-on assays, ACLA was shown to induce an enhancement of the transcription of erythroid genes, including gamma-globin, PBGD, erythropoietin receptor, and GATA-1 transcription factor. In contrast, in DOX-treated cells, the transcription rate of these genes was unchanged in comparison with control cells. In addition, inhibition of mRNA synthesis with actinomycin D indicated that DOX induced an increased stability of PBGD and GATA-1 mRNAs, whereas ACLA did not affect the half-lives of these mRNAs. Because the increase in erythroid mRNA steady-state level in anthracycline-treated cells was inhibited by cycloheximide, this suggests that transcriptional activation in ACLA-treated cells and mRNA stabilization in DOX-treated cells were dependent on de novo protein synthesis. Finally, GATA-1 protein level was shown to be increased in ACLA-treated but not in DOX-treated cells. These two anthracyclines, although closely related in their structures, appeared to act as differentiation inducers by distinct mechanisms. Indeed, erythroid gene expression was demonstrated to be regulated transcriptionally by ACLA and mainly posttranscriptionally by DOX.
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PMID:Transcriptional and posttranscriptional regulation of erythroid gene expression in anthracycline-induced differentiation of human erythroleukemic cells. 885 98

The human TCF11 gene encodes a ubiquitously expressed bZIP transcription factor of the cap n' collar (CNC) domain family. It has a high sequence similarity to the erythroid-specific bZIP factor p45 NF-E2 in the CNC domain, which is involved in DNA binding. LCR-F1, a TCF11 isoform, is a more potent transcriptional activator than p45 NF-E2 in erythroid cells. We show here that the TCF11 protein interacts to form heterodimers with small Maf proteins, previously shown to dimerize with p45 NF-E2, ECH and Fos. Such heterodimerization significantly alters the DNA binding characteristics of TCF11. While TCF11 alone binds in vitro to the tandem NF-E2 site derived from 5' DNase hypersensitive site 2 in the beta-globin locus control region and to the single NF-E2 site in the porphobilinogen deaminase gene promoter, stronger binding is detected in the presence of small Maf proteins. Using antibodies, TCF11 isoforms bound to the single NF-E2 site were detected in K562 erythroid cell nuclear extracts. These findings place TCF11 as a good candidate for the proposed widely expressed factor(s) known to interact with small Maf proteins and bind NF-E2 sites in a sequence-specific manner resembling NF-E2.
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PMID:Small Maf proteins interact with the human transcription factor TCF11/Nrf1/LCR-F1. 893 85

The non-erythroid porphobilinogen deaminase (E.C. 4.3.1.8) promoter was investigated according to sequence changes and transcriptional activity. The minimal promoter sequence required for maximal transcription, was localized by deletion mapping to -243 to -115 relative to the translational start site. A negative transcriptional element was found between -55 and +1, indicating a repression mechanism. A new polymorphism was identified, at position -235 within the minimal promoter, both in acute intermittent porphyria patients and healthy control subjects. The polymorphic variants did not affect expression of cloned promoter fragments under the conditions used.
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PMID:Characterization and regulation of the nonerythroid porphobilinogen deaminase promoter. 907 Feb 89

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