UMLS:C0002871 - FACTA Search

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Query: UMLS:C0002871 (anemia)
52,094 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human erythropoietin gene expression in liver and kidney is inducible by anemia or hypoxia. DNase I-hypersensitive sites were identified 3' to the human erythropoietin gene in liver nuclei. A 256-base-pair region of 3' flanking sequence was shown by DNase I protection and electrophoretic mobility-shift assays to bind four or more different nuclear factors, at least two of which are induced by anemia in both liver and kidney, and the region functioned as a hypoxia-inducible enhancer in transient expression assays. These results provide insight into the molecular basis for the regulation of gene expression by a fundamental physiologic stimulus, hypoxia.
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PMID:Hypoxia-inducible nuclear factors bind to an enhancer element located 3' to the human erythropoietin gene. 206 46

To study the feasibility of a therapy for thalassemia based on addition of a correctly functioning globin gene to bone marrow stem cells, we have developed retroviral vectors that can transfer the human beta-globin gene into pluripotent hematopoietic stem cells of the mouse. Mice reconstituted with virus-infected bone marrow cells showed long-term tissue-specific expression of human beta-globin RNA and protein. Recently, we have redesigned the retroviral vector to improve the efficiency of stem cell infection and to raise the level of globin expression obtained from the virally transduced gene. Removal of a portion of the second intron of the beta-globin gene resulted in the accumulation of a higher level of full-length viral RNA in retrovirus packaging cell lines, and these cell lines produced beta-globin virus particles at substantially higher titers. Addition of fragments from the locus activation region (LAR) of the beta-like globin gene cluster to the retroviral vectors increased beta-globin expression in infected murine erythroleukemia (MEL) cells. Fragments from the -18 and -10.9 kbp DNase I-hypersensitive sites of the LAR increased human beta-globin RNA levels to 35% and 132% of the endogenous mouse beta maj-globin RNA level, respectively. Increased expression was also found for neomycin phosphotransferase RNA, which was transcribed from the retroviral long terminal repeat (LTR), showing that the LAR fragments also activated expression from a nearby heterologous promoter. These results are discussed in the context of the efficacy and safety of gene therapy for chronic anemia in humans.
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PMID:Retroviral vectors for the beta-globin gene that demonstrate improved titer and expression. 229 69

Splenic erythroblasts of mice infected with the anemia-inducing strain of Friend virus can be isolated in large numbers with less than 5% contamination with other cell types. In short-term culture, the isolated cells will initiate globin synthesis and undergo other aspects of terminal differentiation only if erythropoietin (EP) is added to the medium. An early effect of the hormone on these cells is stimulation of total RNA synthesis. EP also causes initiation of transcription of the beta-globin genes after a lag period of 4 to 6 h. By 6 h, the transcription rate of beta-globin RNA is enhanced threefold, and by 12 h, it is nearly maximal at ca. 20 times the level of control cells which received no EP. Transcription rates of alpha and beta-globin genes are approximately equal to each other throughout the period of terminal differentiation. In the splenic erythroblasts, the chromatin structure in the vicinity of the beta-major globin gene was analyzed with two nucleases during these transcription rate changes. No S1 nuclease-hypersensitive site is detectable near the gene. The beta-major gene is quite sensitive to DNase I in comparison with the albumin gene; however, the level of sensitivity is the same before EP addition as it is during maximal gene transcription after EP addition. Also, a hypersensitive site near the 5' cap site of the beta-major gene is quantitatively equivalent both before and after EP addition. Analysis of cytosine methylation at two sites upstream from the gene showed no changes upon induction of beta-globin gene transcription by EP. Thus, the initiation of beta-globin transcription by EP appears to be at some step after chromatin structural alteration such as synthesis, release, or activation of a specific transcription initiation factor.
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PMID:Control of globin gene transcription by erythropoietin in erythroblasts from friend virus-infected mice. 399 Jun 88

Equine infectious anemia virus (EIAV) is a lentivirus that causes a chronic disease of horses characterized by cyclic episodes of fever, anemia, and viremia. Although the genome and promoter of EIAV are much less complex than those of its relatives the primate immunodeficiency viruses, the cellular proteins that activate and regulate transcription of EIAV have not yet been identified. In this report, we show by electrophoretic mobility shift assays and DNase I footprinting that the EIAV promoter contains multiple binding sites for ubiquitous, cell type-specific, and inducible cellular proteins. Functional analysis by transient transfection of canine osteosarcoma (D17) and human epithelial carcinoma (HeLa) cells with EIAV promoters containing deletions or individually mutated DNA-binding sites demonstrated that these DNA-binding elements cooperatively regulate transcriptional activity. A methylated DNA-binding site (MDBP; also designated EF-C or EP) acts as either a positive or negative regulator of promoter activity, depending on the cell type or condition. Two PEA2 elements, an AP-1 site, and an ets/PEA3 motif confer a positive effect on promoter activity. The EIAV promoter is shown to be activated by treatment of HeLa cells with phorbol myristate acetate (PMA). DNA-binding activities were induced in PMA-treated HeLa cells and formed complexes on oligonucleotides that contain the EIAV AP-1 and ets/PEA3 elements. Functional analysis of mutated promoters indicated that the ets/PEA3 motif was the principal mediator of PMA activation.
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PMID:Physical and functional characterization of transcriptional control elements in the equine infectious anemia virus promoter. 838 28

In order to investigate the modes of DNA synthesis supported by the 66 and 51 kDa subunits of equine infectious anemia virus reverse transcriptase (EIAV RT), recombinant p66 polypeptides containing a modified ribonuclease H (RNase H) domain were purified and evaluated. Defined heteropolymeric template-primer combinations and high-resolution gel electrophoresis provided a qualitative evaluation of DNA polymerase and RNase H activities, while DNase I footprinting revealed features of replication complexes containing the truncated enzymes. Removal of alpha-helix E' and the conserved beta 5'-alphaE' "His-loop" in p66delta20 RT uncouples the RNase H activities, alters affinity for template-primer and dictates how the replicating enzyme responds to secondary structure on both DNA and RNA templates. Despite these alterations, DNase I footprinting shows no major difference in the overall structure of DNA-directed DNA synthesis complexes. In contrast, removing 47 C-terminal residues, which includes alpha-helix D', beta-strand 5' and alpha-Helix E', yields an enzyme with distributive DNA polymerase properties closely resembling the purified p51 subunit.
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PMID:Involvement of C-terminal structural elements of equine infectious anemia virus reverse transcriptase in DNA polymerase and ribonuclease H activities. 864 20

Transcription factor GATA-1 is essential for red blood cell maturation and, therefore, for survival of developing mouse embryos. GATA-1 is also expressed in megakaryocytes, mast cells, eosinophils, multipotential hematopoietic progenitors and Sertoli cells of the testis, where its functions have been elusive. Indeed, interpretation of gene function in conventional knockout mice is often limited by embryonic lethality or absence of mature cells of interest, creating the need for alternate methods to assess gene function in selected cell lineages. Emerging strategies for conditional gene inactivation through site-specific recombinases rely on the availability of mouse strains with high fidelity of transgene expression and efficient, tissue-restricted DNA excision. In an alternate approach, we modified sequences upstream of the GATA-1 locus in embryonic stem cells, including a DNase I-hypersensitive region. This resulted in generation of mice with selective loss of megakaryocyte GATA-1 expression, yet sufficient erythroid cell levels to avoid lethal anemia. The mutant mice have markedly reduced platelet numbers, associated with deregulated megakaryocyte proliferation and severely impaired cytoplasmic maturation. These findings reveal a critical role for GATA-1 in megakaryocyte growth regulation and platelet biogenesis, and illustrate how targeted mutation of cis-elements can generate lineage-specific knockout mice.
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PMID:A lineage-selective knockout establishes the critical role of transcription factor GATA-1 in megakaryocyte growth and platelet development. 923 6

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

Binding of the transcription factor PU.1 to its DNA binding motif regulates the expression of a number of B-cell- and myeloid-specific genes. The long terminal repeat (LTR) of macrophage-tropic strains of equine infectious anemia virus (EIAV) contains three PU.1 binding sites, namely an invariant promoter-proximal site as well as two upstream sites. We have previously shown that these sites are important for EIAV LTR activity in primary macrophages (W. Maury, J. Virol. 68:6270-6279, 1994). Since the sequences present in these three binding motifs are not identical, we sought to determine the role of these three sites in EIAV LTR activity. While DNase I footprinting studies indicated that all three sites within the enhancer were bound by recombinant PU.1, reporter gene assays demonstrated that the middle motif was most important for basal levels of LTR activity in macrophages and that the 5' motif had little impact. The impact of the 3' site became evident in Tat transactivation studies, in which the loss of the site reduced Tat-transactivated expression 40-fold. In contrast, elimination of the 5' site had no effect on Tat-mediated activity. Binding studies were performed to determine whether differences in PU.1 binding affinity for the three sites correlated with the relative impact of each site on LTR transcription. While small differences were observed in the binding affinities of the three sites, with the promoter-proximal site having the strongest binding affinity, these differences could not account for the dramatic differences observed in the transcriptional effects. Instead, the promoter-proximal position of the 3' motif appeared to be critical for its transcriptional impact and suggested that the PU.1 sites may serve different roles depending upon the location of the sites within the enhancer. Infectivity studies demonstrated that an LTR containing an enhancer composed of the three PU.1 sites was not sufficient to drive viral replication in macrophages. These findings indicate that while the promoter-proximal PU.1 site is the most critical site for EIAV LTR activity in the presence of Tat, other elements within the enhancer are needed for EIAV replication in macrophages.
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PMID:PU.1 binding to ets motifs within the equine infectious anemia virus long terminal repeat (LTR) enhancer: regulation of LTR activity and virus replication in macrophages. 1501 63

The Brg1 catalytic subunit of SWI/SNF-related complexes has been implicated in many developmental and physiological processes, but null homozygotes die as blastocysts prior to implantation. To circumvent this early embryonic lethality, we performed an ENU mutagenesis screen and generated a Brg1 hypomorph mutation in the ATPase domain. The mutant Brg1 protein is stable, assembles into SWI/SNF-related complexes, and exhibits normal ATPase activity but is unable to establish DNase I hypersensitivity sites characteristic of open chromatin. Mutant embryos develop normally until midgestation but then exhibit a distinct block in the development of the erythroid lineage, leading to anemia and death. The mutant Brg1 protein is recruited to the beta-globin locus, but chromatin remodeling and transcription are perturbed. Histone acetylation and DNA methylation are also affected. To our knowledge, Brg1 is the first chromatin-modifying factor shown to be required for beta-globin regulation and erythropoiesis in vivo. Not only does this mutation establish a role for Brg1 during organogenesis, it also demonstrates that ATPase activity can be uncoupled from chromatin remodeling.
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PMID:A Brg1 mutation that uncouples ATPase activity from chromatin remodeling reveals an essential role for SWI/SNF-related complexes in beta-globin expression and erythroid development. 1628 14

Apoptosis, which is usually accompanied by DNA degradation, is important not only for the homeostasis of metazoans but also for mammalian development. If DNA is not properly degraded in these processes, it can cause diverse diseases, such as anemia, cataracts, and some autoimmune diseases. A large effort has been made to identify these nucleases that are responsible for these effects. In contrast to Deoxyribonuclease I (DNase I), Deoxyribonuclease II (DNase II) has been less well characterized in these processes. Additionally, enzymes of DNase II family in Trichinella spiralis, which is an intracellular parasitic nematode, are also considered involved in the development of the nematode. We have compiled information from studies on DNase II from various organisms and found some nonclassic features in these enzymes of T. spiralis. Here we have reviewed the characterization and functions of DNase II in these processes and predicted the functions of these enzymes in T. spiralis during host invasion and development.
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PMID:The functions of Deoxyribonuclease II in immunity and development. 1841 30

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