Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: DrugBank:BIOD00001 (DNase I)
8,324 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The human beta-globin LCR plays a key role in the transcriptional regulation of the beta-globin locus and comprises four erythroid specific DNase I hypersensitive sites, designated 5'HS1-4. We have now isolated genomic clones containing 5'HS3 and 5'HS4 of the mouse beta-globin LCR. 5'HS3 and 5'HS4 are located 15 kb and 22 kb upstream of the mouse epsilon y-globin gene, respectively. Sequence analysis of murine 5'HS3 and 5'HS4 reveals a significant degree of sequence conservation with their human homologues, including the presence of recognition sites for functionally relevant transcription factors. 5'HS3 and 5'HS4 regions were found to form hypersensitive sites in nuclei from murine erythroid cells, but not in nuclei from a variety of nonerythroid haematopoietic cell lines. Analysis of different mouse strains revealed the existence of a polymorphism that alters the spacing between 5'HS3 and 5'HS4. Taken together, our results emphasize the extent of evolutionary conservation and complexity of mammalian beta-globin LCRs. Finally, the cloning of mouse 5'HS3 and 5'HS4 will facilitate the molecular analysis of LCR function in the mouse model.
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PMID:The mouse beta-globin locus control region: hypersensitive sites 3 and 4. 145 40

Expression of the human alpha and beta globin gene clusters is regulated by remote sequences, referred to as HS -40 and the beta-locus control region (beta-LCR) that lie 5-40 kb upstream of the genes they activate. Because of their common ancestry, similar organization and coordinate expression it has often been assumed that regulation of the globin gene clusters by HS -40 and the beta-LCR occurs via similar mechanisms. Using interspecific hybrids containing chromosomes with naturally occurring deletions of HS -40 we have shown that, in contrast to the beta-LCR, this element exerts no discernible effect on long-range chromatin structure and in addition does not influence formation of DNase I hypersensitive sites at the alpha globin promoters. These differences in the behaviour of HS -40 and the beta-LCR may reflect their contrasting influence on gene expression in transgenic mice and may result from the differing requirements of these elements in their radically different, natural chromosomal environments; the alpha cluster lying within a region of constitutively 'open' chromatin and the beta cluster in a segment of chromatin which opens in a tissue-specific manner. Differences in the hierarchical control of the alpha and beta globin clusters may exemplify more general differences in the regulation of eukaryotic genes which lie in similar open or closed chromosomal regions.
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PMID:Contrasting effects of alpha and beta globin regulatory elements on chromatin structure may be related to their different chromosomal environments. 773 23

Retrovirus-mediated gene transfer of the human beta-globin gene into hematopoietic stem cells is an attractive approach to the therapy of human beta-globin gene disorders. However, expression of the transduced beta-globin gene linked to its proximal cis-acting sequences (-0.8 to +0.3 kb from the cap site) is considerably below the level required for a significant therapeutic effect. The discovery of the beta-locus control region (beta-LCR), organized in four major DNase I hypersensitive sites far upstream of the human beta-like globin gene cluster, provided a potential means to achieve a high level of expression of a linked human beta-globin gene, but initial attempts to incorporate beta-LCR derivatives in retroviral vectors resulted in the production of low-titer viruses with multiple rearrangements of the transmitted proviral structures. We now describe how extensive mutagenesis of the transduced beta-globin gene, eliminating a 372 bp intronic segment and multiple reverse polyadenylation and splicing signals, increases viral titer significantly and restores stability of proviral transmission upon infection of cell lines and bone marrow-repopulating cells. These optimized vectors have enabled us to analyze the expression properties of various retrovirally transduced beta-LCR derivatives in dimethylsulfoxide-induced murine erythroleukemia cells and to achieve ratios of human beta-globin/murine beta maj-globin mRNA, on a per gene basis, as high as 80%.
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PMID:Mutagenesis of retroviral vectors transducing human beta-globin gene and beta-globin locus control region derivatives results in stable transmission of an active transcriptional structure. 803 1

Expression of fetal hemoglobin (Hb F) is under polygenic control involving determinants both linked and unlinked to the beta-globin gene cluster on chromosome 11. Variations in the DNase I-hypersensitive site 2 of the locus control region (LCR-HS2) and a C --> T change at position -158 from the Ggamma-gene (detected as an XmnI polymorphism) correlate with the high level of Hb F expression in patients with sickle-cell anemia and beta-thalassemia. Interpretation of data under these conditions of anemic stress is difficult because the preferential survival of Hb F-containing erythrocytes (F-cells) may not reflect the true status of Hb F expression. We investigated the relationship between these markers and Hb F expression in terms of F-cell levels in 48 unrelated non-anemic AS heterozygotes from Sicily. The betaS-chromosome of all these individuals was of the Benin haplotype and they differed only by their betaA chromosomes. We demonstrate that F-cell expression is more strongly associated with LCR-HS2 polymorphism than with XmnI polymorphism. The observed association between XmnI polymorphism and Hb F expression is very likely to be due to linkage disequilibrium with LCR-HS2 sequences.
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PMID:Dissection of the association status of two polymorphisms in the beta-globin gene cluster with variations in F-cell number in non-anemic individuals. 939 85

In this report, the molecular mechanisms involved in the overexpression of MDR1 mRNA in the multidrug resistant variant of the HL60 human acute myeloid leukemia cell line, HL60/VCR, were investigated. RT-PCR and nuclear run-on assays revealed that the expression of MDR1 mRNA is regulated by increased transcriptional initiation in HL60/VCR cells. Transient transfections with a 241 bp MDR1 promoter (spanning the -198 to +43 region) DNA fragment/pGL3-basic plasmid construct resulted in about 6-fold increased luciferase activity in HL60/VCR but not in HL60 cells. Moreover, ds CAAT-oligomer from the MDR1 promoter cloned upstream of the SV-40 promoter in the pGL3-promoter plasmid caused about a 7-fold increase in luciferase activity compared with plasmid constructs containing CAAT-deleted, GC-box, and nonspecific oligomers in HL60/VCR transfectants. These results were confirmed by transfecting HL60/VCR cells with the pGL3-basic plasmid containing a 237 bp mutated MDR1 proximal promoter lacking the CAAT sequence in which no change in luciferase activity was observed. However, a 5-6-fold increase in luciferase activity was measured in these cells when transfected with the wt MDR1 promoter DNA/pGL3-basic plasmid constructs. These results show that the CAAT-region is involved in upregulating the MDR1 promoter in HL60/VCR cells. A nuclear factor binding to the CAAT-region of the MDR1 promoter specifically was detected in electrophoretic mobility shift assays (EMSAs) in HL60/VCR but not in HL60 extracts. Two MDR1 promoter-associated polypeptides with molecular masses of about 130 and 162 kDa were identified in HL60/VCR cells by electroelution, specific DNA-affinity chromatography, and silver staining. Interestingly, cross-linking and Southwestern analysis indicate that only the 130 kDa protein, which we refer to as MDR1-promoter enhancing factor 1 (MEF1), has a strong DNA-binding ability, interacting with the 5'-GTCAATCC-3' element of the MDR1 promoter, as determined by DNase I protection assay. These data reveal that MEF1 upregulates the MDR1 promoter activity.
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PMID:Identification and characterization of the MDR1 promoter-enhancing factor 1 (MEF1) in the multidrug resistant HL60/VCR human acute myeloid leukemia cell line. 1062 94

The DNase I-hyper-sensitive sites (HS2-HS4) in the beta-globin gene enhancer region (locus control region; LCR) have been known as the target of Bach1/MafK heterodimers. We have demonstrated previously by utilizing atomic force microscopy (AFM) that Bach1/MafK mediates the formation of a looped-DNA structure in the LCR fragment. Here we perform further detailed analyses of the loop structure formed between each HSs by AFM, and propose a novel model for the enhancer/protein interaction: the Bach1/MafK heterodimer preferentially binds to HS2 with highest affinity and to HS3 with lower affinity. However, they assemble to each other to form a stable complex of four heterodimers and mediate a DNA-loop formation. Once the DNA loop is formed between HS2 and HS3, the Bach1/MafK complex at the HS3 side leaves the HS3 and starts to slide along the DNA strand towards HS2 with the other side of the complex fixed at the HS2 region. This 'kiss and pull' model will contribute to understand the function of regulatory proteins at enhancer regions in terms of higher-order structure of DNA, e.g. nucleosomes and chromatin.
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PMID:Atomic force microscopy proposes a 'kiss and pull' mechanism for enhancer function. off. 1110 28

In erythroid tissues the chromatin structure of the beta-globin gene locus is extensively remodeled. Changes include the formation of DNase I hypersensitive sites (HSs) over the promoters of actively expressed genes. To test the hypothesis that such "opening" of promoter chromatin structure is important for beta-globin gene expression, we placed a 101-bp erythroid-specific hypersensitive-site forming element (HSFE) from the core of LCR HS4 immediately upstream of a minimal beta-globin gene promoter. We then studied the effects of this element alone and in combination with other cis-acting elements on globin gene chromatin structure and gene expression in MEL cells and transgenic mice. Single or tandem HSFEs increased the size of the portion of the promoter accessible to DNase digestion, increased the proportion of promoters in an accessible conformation, and increased gene expression approximately 5-fold. These were equivalent to expression levels attained using a 2.8-kb microLCR construct. Inclusion of the LCR HS2 enhancer did not increase expression further. In transgenic mouse fetal liver cells the HSFE increased average expression 2.5-fold compared to the minimal promoter alone. These results indicate that a small cis-acting element is capable of remodeling local beta-globin promoter chromatin structure and producing expression similar to that seen with a microLCR construct.
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PMID:An erythroid-specific chromatin opening element reorganizes beta-globin promoter chromatin structure and augments gene expression. 1177 61

HEL cells, a human erythroleukemia cell line, mainly express the fetal (gamma) globin gene and trace amount of the embryonic (epsilon) globin gene, but not adult (beta) globin gene. Here we show that hydroxyurea (HU) can induce HEL cells to express adult (beta) globin gene and lead these cells to terminal differentiation. Results showed in Gel mobility shift assays that GATA factors could specifically bind to the regulatory elements of human beta-globin gene, including the proximal regulatory element (the beta-promoter) and the distal regulatory elements (the DNase I hypersensitive sites in the LCR, HS2-HS4 core sequences). However, the DNA binding patterns of GATA factors were quite different between HU-induced and uninduced HEL cells. Western-blot analysis of nuclear extracts from both the uninduced and HU-induced HEL cells revealed that the level of GATA-2 transcription factor decreased, whereas the level of GATA-1 transcription factor increased following the time of hydroxyurea induction. Furthermore, using RT-PCR analysis the expression of human beta-globin gene in HU-induced HEL cells could be blocked again when HEL cells were incubated in the presence of antisense oligonucleotides for hGATA-1, suggesting that the upregulation of hGATA-1 transcription factor might be critical for the expression of human beta-globin gene in HU-induced HEL cells.
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PMID:Function of GATA transcription factors in hydroxyurea-induced HEL cells. 1178 75

Our previous study showed that hydroxyurea (Hu) could induce HEL cells to express human beta-globin gene. However the molecular mechanisms by which the expression of beta-globin gene is activated and regulated are poorly understood. Here we show that the binding patterns between the core DNA sequences (HS2 core sequence -10681 approximately -10971 bp, HS3 core sequence -14991 approximately -14716 bp and HS4 core sequence -18586 approximately -18306 bp) of DNase I hypersensitive sites in the human beta-globin LCR and nuclear matrix proteins isolated from Hu induced and uninduced HEL cells are quite different. Results demonstrated that nuclear matrix proteins might play important roles in regulating the expression of human beta-like globin genes through their interaction with HSs (HS2, HS3 and HS4 core sequences) in the LCR. Moreover, the results obtained from the in vitro DNA-matrix binding assay showed that the core DNA sequences of DNase I hypersensitive sites (HS2, HS3 and HS4) were unable to bind to the nuclear matrix isolated from uninduced HEL cells; in addition, HS2 core DNA sequence was capable of binding to the nuclear matrix prepared from Hu-induced HEL cells, while both HS3 and HS4 core DNA sequences could not do so. Results indicated that the HS2 core DNA sequence may be a functional MAR (matrix attachment region). We suggest that the HS2 core DNA sequence binding to the nuclear matrix in Hu-induced HEL cells may open the structure of chromatin to make the LCR accessible to the promoter of beta-globin gene and to promote its transcription.
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PMID:The interaction between the human beta-globin locus control region and nuclear matrix. 1252

Previous studies have demonstrated that multidrug-resistant leukemic cells displayed nuclear texture changes. In this work, the human ovarian carcinoma cell line IGROV1 and its multidrug-resistant variant OV1/VCR were studied. Cell smears of these cell populations were analysed by image cytometry. As compared to sensitive cells, OV1/VCR display a chromatin global decondensation as assessed by textural features analysis. In order to correlate this decondensation with alterations in chromatin structure, DNase I was used. OV1/VCR DNA displayed an increased DNase I sensitivity, suggesting an increased chromatin accessibility. Furthermore, OV1/VCR cells displayed an increased level in acetylated histone H4, a mechanism known to be associated with transcriptionally active chromatin and relaxed chromatin conformation.
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PMID:Nuclear texture and chromatin structure in OV1/VCR human multidrug-resistant cell line. 1296 8


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