Chromatin structure at the 3'-boundary of the human beta-globin locus control region hypersensitive site-2

Chromatin structure was examined at the 3′-boundary region of the human β-globin locus control region hypersensitive site-2 (LCR HS-2) using several footprinting agents. Erythroid K562 cells (possessing HS-2) were damaged by the footprinting agents: hedamycin, bleomycin and four nitrogen mustard analogues. Purified DNA and non-erythroid HeLa cells (lacking HS-2) were also damaged as controls for comparison with K562 cells. The comparison between intact cells and purified DNA showed several protected regions in K562 cells. A large erythroid-specific protected region of 135 bp was found at the boundary of HS-2. The length of this protected region (135 bp) was close to that of DNA contained in a nucleosome core (146 bp). Another two protected regions were found upstream of the protected region. A 16-bp erythroid-specific footprint co-localised with a GATA-1 motif—this indicated that the GATA-1 protein could be involved in positioning the nucleosome. Further upstream, a 100-bp footprint coincided with an AT-rich region. Thus our footprinting results suggest that the 3′-boundary of LCR HS-2 is flanked by a positioned nucleosome and that an erythroid-specific protein binds to the sequence adjacent to the nucleosome and acts to position the nucleosome at the boundary of the hypersensitive site.     

Localization of DNA protein-binding sites in the proximal and distal promoter regions of the mouse alpha-fetoprotein gene.

DNase I footprinting assays were performed to identify the binding sites for putative trans-acting factors involved in the control of alpha-fetoprotein (AFP) gene expression using mouse AFP promoter fragments (-839 to +56) and nuclear protein extracts from fetal, newborn, and adult livers and from brain and kidney. Our studies have shown that with nuclear protein from adult mouse liver, there are 14 protected regions in the AFP promoter up to -839 base pairs (bp). Region I (-82 to -43) was protected by at least three different factors, one of which is CCAAT-binding/enhancer-binding protein. This region is highly conserved in the mouse, rat, and human AFP genes and has been shown previously to be essential for the regulation of tissue-specific expression in mouse. Differences in DNase I protection with fetal, newborn, and adult nuclear proteins have been observed in the proximal promoter region (up to -202 bp) and in regions further upstream (up to -839 bp). Significant differences among liver, kidney, and brain nuclear protein-binding sites have also been observed. In these studies, we have mapped the fetal and adult nuclear protein-binding sites of the cis-acting DNA sequences of the mouse AFP proximal promoter (up to -200) and have identified specific protein-binding sites in the distal promoter (-200 to -839). We have also identified the sites of the AFP promoter which bind nuclear proteins from highly differentiated tissues in which AFP is not expressed.     

Chromatin structure at the flanking regions of the human beta-globin locus control region DNase I hypersensitive site-2: proposed nucleosome positioning by DNA-binding proteins including GATA-1

The human beta-globin locus control region DNase I hypersensitive site-2 (LCR HS-2) is erythroid-specific and is located 10.9 kb upstream of the epsilon-globin gene. Most studies have only examined the core region of HS-2. However, previous studies in this laboratory indicate that positioned nucleosomes are present at the 5'- and 3'-flanking regions of HS-2. In addition, footprints were observed that indicated the involvement of DNA-binding proteins in positioning the nucleosome cores. A consensus GATA-1 site exists in the region of the 3'-footprint. In this study, using an electrophoretic mobility shift assay (EMSA) and DNase I footprinting, we confirmed that GATA-1 binds in vitro at the 3'-end of HS-2. An additional GATA-1 site was found to bind GATA-1 in vitro at a site positioned 40 bp upstream. At the 5'-end of HS-2, DNase I footprinting revealed a series of footprints showing a marked correlation with the in vivo footprints. EMSA indicated the presence of several erythroid-specific complexes in this region including GATA-1 binding. Sequence alignment for 12 mammalian species in HS-2 confirmed that the highest conservation to be in the HS-2 core. However, a second level of conservation extends from the core to the sites of the proposed positioning proteins at the HS-2 flanking regions, before declining rapidly. This indicates the importance of the HS-2 flanking regions and supports the proposal of nucleosome positioning proteins in these regions.     

Erythroid expression of the human alpha-spectrin gene promoter is mediated by GATA-1- and NF-E2-binding proteins

alpha-Spectrin is a highly expressed membrane protein critical for the flexibility and stability of the erythrocyte. Qualitative and quantitative defects of alpha-spectrin are present in the erythrocytes of many patients with abnormalities of red blood cell shape including hereditary spherocytosis and elliptocytosis. We wished to determine the regulatory elements that determine the erythroid-specific expression of the alpha-spectrin gene. We mapped the 5' end of the alpha-spectrin erythroid cDNA and cloned the 5' flanking genomic DNA containing the putative alpha-spectrin gene promoter. Using transfection of promoter/reporter plasmids in human tissue culture cell lines, in vitro DNase I footprinting analyses, and gel mobility shift assays, an alpha-spectrin gene erythroid promoter with binding sites for GATA-1- and NF-E2-related proteins was identified. Both binding sites were required for full promoter activity. In transgenic mice, a reporter gene directed by the alpha-spectrin promoter was expressed in yolk sac, fetal liver, and erythroid cells of bone marrow but not adult reticulocytes. No expression of the reporter gene was detected in nonerythroid tissues. We conclude that this alpha-spectrin gene promoter contains the sequences necessary for low level expression in erythroid progenitor cells.     

Nuclear factor 1 is a component of the nuclear matrix

Chicken histone H5 is an H1-like linker histone that is expressed only in nucleated erythrocytes. The histone H5 promoter has binding sites for Sp1 (a high affinity site) and UPE-binding protein, while the 3′ erythroid-specific enhancer has binding sites for Sp1 (one moderate and three weak affinity), GATA-1, and NF1. In this study we investigated whether trans-acting factors that bind to the chicken histone H5 promoter or enhancer are associated with adult chicken immature and mature erythrocyte nuclear matrices. We show that NF1, but not Sp1, GATA-1, or UPE-binding protein, is associated with the internal nuclear matrices of these erythroid cells. Further, we found that a subset of the NF1 family of proteins is bound to the mature erythrocyte nuclear matrix. These results suggest that in chicken erythrocytes NF1 may mediate an interaction between the histone H5 enhancer and the erythroid internal nuclear matrix. NF1 was also present in the internal nuclear matrices of chicken liver and trout liver. The observations of this study provide evidence that NF1 may have a role in a variety of cell types in targeting specific DNA sequences to the nuclear matrix. © 1994 Wiley-Liss, Inc.     

The effects of HPFH mutations in the human gamma-globin promoter on binding of ubiquitous and erythroid specific nuclear factors.

Genetic evidence indicates that single point mutations in the gamma-globin promoter may be the cause of high expression of the mutated gene in the adult period (Hereditary Persistence of Fetal Hemoglobin, HPFH). Here we show that one of these mutations characterized by a T----C substitution at position -175 in a conserved octamer (ATGCAAAT) sequence, abolishes the ability of a ubiquitous octamer binding nuclear protein to bind a gamma-globin promoter fragment containing the mutated sequence; however, the ability of two erythroid specific proteins to bind the same fragment is increased three to five fold. DMS interference and binding experiments with mutated fragments indicate that the ubiquitous protein recognizes the octamer sequence, while the erythroid specific proteins B2, B3 recognize flanking nucleotides. Competition experiments indicate that protein B2 corresponds to an erythroid-specific protein known to bind to a consensus GATAG sequence present at several locations in alpha, beta and gamma-globin genes. Although the distal CCAAT box region of the gamma-globin gene shows a related sequence, an oligonucleotide including this sequence does not show any ability to bind the above mentioned erythroid protein; instead, it binds a different erythroid specific protein, in addition to a ubiquitous protein. The -117 G----A mutation also known to cause HPFH, and mapping two nucleotides upstream from the CCAAT box, greatly decreases the binding of the erythroid-specific, but not that of the ubiquitous protein, to the CCAAT box region fragment.     

Sequences downstream of the erythroid promoter are required for high level expression of the human alpha-spectrin gene

Alpha-spectrin is a membrane protein critical for the flexibility and stability of the erythrocyte. We are attempting to identify and characterize the molecular mechanisms controlling the erythroid-specific expression of the alpha-spectrin gene. Previously, we demonstrated that the core promoter of the human alpha-spectrin gene directed low levels of erythroid-specific expression only in the early stages of erythroid differentiation. We have now identified a region 3' of the core promoter that contains a DNase I hypersensitive site and directs high level, erythroid-specific expression in reporter gene/transfection assays. In vitro DNase I footprinting and electrophoretic mobility shift assays identified two functional GATA-1 sites in this region. Both GATA-1 sites were required for full activity, suggesting that elements binding to each site interact in a combinatorial manner. This region did not demonstrate enhancer activity in any orientation or position relative to either the alpha-spectrin core promoter or the thymidine kinase promoter in reporter gene assays. In vivo studies using chromatin immunoprecipitation assays demonstrated hyperacetylation of this region and occupancy by GATA-1 and CBP (cAMP-response element-binding protein (CREB)-binding protein). These results demonstrate that a region 3' of the alpha-spectrin core promoter contains a GATA-1-dependent positive regulatory element that is required in its proper genomic orientation. This is an excellent candidate region for mutations associated with decreased alpha-spectrin gene expression in patients with hereditary spherocytosis and hereditary pyropoikilocytosis.     

DNA-histone interactions are sufficient to position a single nucleosome juxtaposing Drosophila Adh adult enhancer and distal promoter.

The alcohol dehydrogenase gene (Adh) of Drosophila melanogaster is transcribed from two tandem promoters in distinct developmental and tissue-specific patterns. Both promoters are regulated by separate upstream enhancer regions. In its wild-type context the adult enhancer specifically stimulates only the distal promoter, approximately 400 bp downstream, and not the proximal promoter, which is approximately 700 bp further downstream. Genomic footprinting and micrococcal nuclease analyses have revealed a specifically positioned nucleosome between the distal promoter and adult enhancer. In vitro reconstitution of this nucleosome demonstrated that DNA-core histone interactions alone are sufficient to position the nucleosome. Based on this observation and sequence periodicities in the underlying DNA, the mechanism of positioning appears to involve specific DNA structural features (ie flexibility or curvature). We have observed this nucleosome positioned early during development, before tissue differentiation, and before non-histone protein-DNA interactions are established at the distal promoter or adult enhancer. This nucleosome positioning element in the Adh regulatory region could be involved in establishing a specific tertiary nucleoprotein structure that facilitates specific cis-element accessibility and/or distal promoter-adult enhancer interactions.