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The principal regulator of erythropoiesis is the glycoprotein erythropoietin, which interacts with a specific cell surface receptor (EpoR). A study aimed at analyzing EpoR gene regulation has shown that both pluripotent embryonal stem cells and early multipotent hematopoietic cells express EpoR transcripts. Commitment to nonerythroid lineages (e.g., macrophage or lymphocytic) results in the shutdown of EpoR gene expression, whereas commitment to the erythroid lineage is concurrent with or followed by dramatic increases in EpoR transcription. To determine whether gene activity could be correlated with chromatin alterations, DNase-hypersensitive sites (HSS) were mapped. Two major HSS located in the promoter region and within the first intron of the EpoR gene are present in all embryonal stem and hematopoietic cells tested, the intensities of which correlate well with EpoR expression levels. In addition, a third major HSS also located within the first intron of the EpoR gene is uniquely present in erythroid cells that express high levels of EpoR. Transfection assays show that sequences surrounding this major HSS impart erythroid cell-specific enhancer activity to a heterologous promoter and that this activity is at least in part mediated by GATA-1. These data, together with concordant expression levels of GATA-1 and EpoR in both early multipotent hematopoietic and committed erythroid cells, support a regulatory role of the erythroid cell-specific transcription factor GATA-1 in EpoR transcription in these cells. However, the lack of significant levels of GATA-1 expression in embryonal stem cells implies an alternative regulatory mechanism of EpoR transcription in cells not committed to the hematopoietic lineage.
Mol Cell Biol 1992 Apr
PMID:The gene for erythropoietin receptor is expressed in multipotential hematopoietic and embryonal stem cells: evidence for differentiation stage-specific regulation. 131 71

ErbA/thyroid hormone receptor is a nuclear receptor that can affect transcription from promoters containing a thyroid hormone response element (TRE) in a thyroid hormone (T3)-dependent manner. We reported earlier that the thyroid hormone receptor is expressed in embryonic avian erythroid cells as a nested set of four proteins with a common C terminus. The full-length receptor is capable of both high-affinity binding to thyroid hormone and specific binding to DNA. We now report that the two smallest ErbA forms, which contain the hormone-binding domain but lack the N-terminal DNA-binding domain, have the same affinity for T3 as does full-length ErbA but are incapable of specific DNA binding. In transactivation assays, these N-terminally truncated proteins are able to specifically suppress both transcriptional repression and hormone-dependent transcriptional activation by the full-length ErbA. We also find that retinoic acid-dependent transactivation by retinoic acid receptors is inhibited by the truncated ErbA proteins. Furthermore, the smaller ErbA forms inhibit binding to TREs by full-length ErbA in vitro. Results from experiments involving site-specific mutagenesis of a conserved region within the hormone-binding domain of the smaller ErbA proteins indicate that the suppressive effect of the smaller receptor forms is independent of hormone binding and that this region is important in mediating protein-hormone as well as protein-protein interactions. We have also found that full-length ErbA homodimers can be detected only in the presence of a specific DNA-binding site. However, no association between full-length and the N-terminally truncated non-DNA-binding ErbA proteins could be detected, indicating that the complex either is unstable or does not form. Our results suggest that inhibition of receptor function occurs through transient formation of heterodimers which lack DNA-binding activity or by competition for factors which positively affect DNA binding by the full-length protein. This finding raises the possibility that thyroid hormone receptor transcriptional activity is autoregulated by means of alternative receptor translation products acting in a dominant negative manner.
Mol Cell Biol 1992 May
PMID:Thyroid hormone receptor transcriptional activity is potentially autoregulated by truncated forms of the receptor. 131 55

Multiple homeobox genes are expressed in haematopoietic cell lineages and their expression is cell-type specific. Thus we hypothesized that certain homeobox genes may play an important role in the process of haematopoiesis. To prove that issue, normal murine bone marrow cells were stimulated with appropriate Colony Stimulating Factors in the presence of mouse homeobox gene (Hox 2.3) sense or antisense oligodeoxynucleotides and the effects on the haematopoietic colony formation were examined. Treatment of the cells to Hox 2.3 antisense oligodeoxynucleotides led to a selective inhibition of myeloid colony formation, both in size and in numbers, but without significant effect on erythroid and megakaryocytic haematopoiesis. Exposure to Hox 2.3 sense oligodeoxynucleotides (no-oligomers), had no such effect. It was further showed that inhibition of myelopoiesis by Hox 2.3 antisense oligodeoxynucleotides was dependent on the differentiation stage of target cells. These findings demonstrated that Hox 2.3 gene plays a critical role in regulating normal murine myelopoiesis.
Cell Mol Biol 1992 Jul
PMID:Selective inhibition of normal murine myelopoiesis "in vitro" by a Hox 2.3 antisense oligodeoxynucleotide. 135 76

The beta-globin gene complex is regulated by an upstream locus control region (LCR) which is responsible for high-level, position-independent, erythroid-cell-specific expression of the genes in the cluster. Its role in the developmental regulation of beta-like globin gene transcription remains to be established. We have examined the effect of a single LCR element, hypersensitive site 2 (HS2), on the developmental regulation of the human fetal gamma and adult beta genes in transgenic mice. In mice bearing HS2A gamma beta and HS2G gamma A gamma-117 delta beta human globin gene constructs, switching from gamma- to beta-gene expression begins at about day 13.5 of gestation and is largely completed shortly after birth. The larger construct also demonstrates a switch in G gamma- to A gamma-gene expression during the gamma-to-beta switch similar to that observed during normal human development. We conclude that HS2 alone is sufficient for developmental regulation of the human beta-globin genes.
Mol Cell Biol 1992 May
PMID:A single beta-globin locus control region element (5' hypersensitive site 2) is sufficient for developmental regulation of human globin genes in transgenic mice. 137 5

The terminal development of erythroid progenitor cells is promoted in part through the interaction of erythropoietin (EPO) with its cell surface receptor. This receptor and a growing family of related cytokine receptors share homologous extracellular features, including a well-conserved WSXWS motif. To explore the functional significance of this motif in the murine EPO receptor, five WSAWSE mutants were prepared and their signal-transducing, ligand binding, and endocytotic properties were compared. EPO receptors mutated at tryptophan residues (W-232, W-235----G; W-235----G; W-235----F) failed to mediate EPO-induced growth or pp100 phosphorylation, while S-236----T and E-237----K mutants exhibited partial to full activity (50 to 100% of wild-type growth and induced phosphorylation). Ligand affinity was reduced for mutant receptors (two- to fivefold), yet expression at the cell surface for all receptors was nearly equivalent. Also, the ability of mutated receptors to internalize ligand was either markedly reduced or abolished (W-235----F), indicating a role for the WSAWSE region in hormone internalization. Interestingly, receptor forms lacking 97% of the cytosolic domain (no signal-transducing capacity; binding affinity reduced two- to threefold) internalized EPO efficiently. This and all WSAWSE receptor forms studied also mediated specific cross-linking of 125I-EPO to three accessory membrane proteins (M(r)s, 120,000, 105,000, and 93,000). These findings suggest that the WSAWSE domain of the EPO receptor is important for EPO-induced signal transduction and ligand internalization. In contrast, although the cytosolic domain is required for growth signaling, it appears nonessential for efficient endocytosis.
Mol Cell Biol 1992 Oct
PMID:Mutations in the WSAWSE and cytosolic domains of the erythropoietin receptor affect signal transduction and ligand binding and internalization. 140 45

We have generated and analyzed by functional assays mutations of the chicken erythroid transcription factor GATA-1. The cGATA-1 protein contains two related finger domains highly conserved across species and characteristic of the family of GATA-binding factors. We find that mutations in the C-terminal finger or adjacent basic region abolish sequence-specific DNA binding, confirming that this region constitutes a novel DNA-binding domain sufficient to recognize the consensus WGATAR motif. At least three separate regions outside of this finger II domain contribute in a cooperative manner to the trans-activation potential of the protein. As expected from previous results analyzing the mouse homolog, we find that the N-terminal finger plays a role in DNA binding by affecting the stability of the DNA-protein complex. In addition, we find mutations of finger I subtly altered in DNA-binding function which greatly diminish trans-activation. Our results support the notion that the GATA-1 protein must be positioned precisely on the GATA cis element to enable the activation of target genes.
Mol Cell Biol 1992 Oct
PMID:Distinct roles for the two cGATA-1 finger domains. 140 46

Tissue- and developmental stage-specific expression of the human beta-like globin genes is regulated by a combination of ubiquitous and erythroid-restricted trans factors that bind to cis elements near each of the five active genes. Additional interactions of these cis and trans factors with sequences located in the far 5' end of the cluster occur by as yet obscure mechanisms. Because of the complexity of this regulatory puzzle, precise identification of the determinants that control hemoglobin switching has proven difficult. Phylogenetic footprinting is an evolutionary approach to this problem which is based on the supposition that the basic mechanisms of switching are conserved throughout mammalian phylogeny. Alignment of the 5' flanking regions of the gamma genes of several species allows the identification of footprints of 100% conserved sequence. We have now tested oligomers spanning 13 such phylogenetic footprints and find that 12 are bound by nuclear proteins. One conserved element located at -1086 from the gamma genes exhibits repressor activity in transient transfection studies. The protein that binds this element, CSBP-1 (conserved sequence-binding protein 1), also binds at three sites within a silencer element upstream from the epsilon globin gene. Further analysis reveals that the CSBP-1 binding activity is identical to that of a recently cloned zinc finger protein that has been shown to act as a repressor in other systems. The binding of CSPB-1 to silencer sequences in the epsilon and gamma globin genes may be important in the stage-specific silencing of these genes.
Mol Cell Biol 1992 Nov
PMID:Phylogenetic footprinting reveals a nuclear protein which binds to silencer sequences in the human gamma and epsilon globin genes. 140 69

The association of the human epsilon-globin gene with the nuclear matrix was studied in erythroid and non-erythroid cell lines. Using a high salt method to prepare histone depleted nuclei we studied the association of variety of fragments covering a 7.8 kb region which contains the human epsilon-globin gene. We furthermore studied the association of a set of DNA fragments covering the 13 kb human G gamma/A gamma-globin gene domain, the 16 kb psi beta/delta-globin gene domain and the 10 kb beta-globin gene domain with the nuclear matrix of K562 and Raji cells. The results show that all fragments studied are easily released from the nuclear matrix, indicating no specific association. Summarizing our results we could say that a region starting 5.7 kb 5' to the human epsilon-globin gene and ending 4 kb 3' to the human beta-globin gene seems to contain no attachment sites with the nuclear matrix of both erythroid and non-erythroid cells.
Mol Cell Biochem 1992 Sep 22
PMID:The association of the human epsilon-globin gene with the nuclear matrix: a reconsideration. 143 59

Hemin induces nonterminal differentiation of human K562 erythroleukemia cells, which is accompanied by the expression of certain erythroid cell-specific genes, such as the embryonic and fetal globins, and elevated expression of the stress genes hsp70, hsp90, and grp78/BiP. Previous studies revealed that, as during heat shock, transcriptional induction of hsp70 in hemin-treated cells is mediated by activation of heat shock transcription factor (HSF), which binds to the heat shock element (HSE). We report here that hemin activates the DNA-binding activity of HSF2, whereas heat shock induces predominantly the DNA-binding activity of a distinct factor, HSF1. This constitutes the first example of HSF2 activation in vivo. Both hemin and heat shock treatments resulted in equivalent levels of HSF-HSE complexes as analyzed in vitro by gel mobility shift assay, yet transcription of the hsp70 gene was stimulated much less by hemin-induced HSF than by heat shock-induced HSF. Genomic footprinting experiments revealed that hemin-induced HSF and heat shock-induced HSF, HSF2, and HSF1, respectively, occupy the HSE of the human hsp70 promoter in a similar yet not identical manner. We speculate that the difference in occupancy and/or in the transcriptional abilities of HSF1 and HSF2 accounts for the observed differences in the stimulation of hsp70 gene transcription.
Mol Cell Biol 1992 Sep
PMID:Activation of heat shock factor 2 during hemin-induced differentiation of human erythroleukemia cells. 150 7

We analysed the formation of transcription complexes on the H5 gene of the duck which is efficiently transcribed in HeLa cell extracts in vitro. Upon deletion of its TATA-box, the fidelity of transcription of the H5 gene is maintained, although the efficiency of this process is significantly reduced. Selective inactivation of TFIID in whole cell extracts and reconstitution experiments either with human recombinant TFIID or a protein fraction from duck erythrocytes enriched in TFIID show that transcription of the TATA-less H5 promoter nevertheless requires the protein TFIID. Screening of promoter elements which could indirectly mediate the interaction of TFIID with a TATA-less H5 promoter led to the identification of a sequence element located about 40 base-pairs downstream from the H5 initiation site that shows partial homology to the USF consensus sequence. In electrophoretic mobility shift and footprinting studies we demonstrated a specific interaction of the erythroid factor USF (eUSF) with this downstream element. By isolating active transcription complexes we found that all components required for correct initiation remain stably associated with the H5 promoter irrespective of the presence or absence of the TATA box. Moreover, the reconstitution of eUSF and TFIID-depleted transcription complexes with purified protein fractions demonstrate that not only TFIID but also eUSF essentially participates in complex formation even on H5 promoter mutations lacking the TATA-box. Mutual interactions between eUSF and TFIID appear to stabilize the binding of TFIID in the presence or absence of its proper binding site.
J Mol Biol 1992 Feb 20
PMID:Transcription factor eUSF is an essential component of isolated transcription complexes on the duck histone H5 gene and it mediates the interaction of TFIID with a TATA-deficient promoter. 153 3

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