UMLS:C0021051 - FACTA Search

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Query: UMLS:C0021051 (immunodeficiency)
71,517 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The cDNAs for two DNA binding proteins of BTE, a GC box sequence in the promoter region of the P-450IA1(CYP1A1) gene, have been isolated from a rat liver cDNA library by using the BTE sequence as a binding probe. While one is for the rat equivalent to human Sp1, the other encodes a primary structure of 244 amino acids, a novel DNA binding protein designated BTEB. Both proteins contain a zinc finger domain of Cys-Cys/His-His motif that is repeated three times with sequence similarity of 72% to each other, otherwise they share little or no similarity. The function of BTEB was analysed by transfection of plasmids expressing BTEB and/or Sp1 with appropriate reporter plasmids into a monkey cell line CV-1 and compared with Sp1. BTEB and Sp1 activated the expression of genes with repeated GC box sequences in promoters such as the simian virus 40 early promoter and the human immunodeficiency virus-1 long terminal repeat promoter. In contrast, BTEB repressed the activity of a promoter containing BTE, a single GC box of the CYP1A1 gene that is stimulated by Sp1. When the BTE sequence was repeated five times, however, BTEB turned out to be an activator of the promoter. RNA blot analysis showed that mRNAs for BTEB and Sp1 were expressed in all tissues tested, but their concentrations varied independently in tissues. The former mRNA was rich in the brain, kidney, lung and testis, while the latter was relatively abundant in the thymus and spleen.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Two regulatory proteins that bind to the basic transcription element (BTE), a GC box sequence in the promoter region of the rat P-4501A1 gene. 135 62

A critical regulatory element in many promoters transcribed by RNA polymerase II is the "TATA" box, which is located 25-30 nucleotides upstream of the transcription initiation site. TFIID is a biochemically defined HeLa cell nuclear fraction containing a transcription factor activity that binds specifically to the TATA box and is critical in determining both basal and regulated promoter activity. Recently, the gene for a TATA-binding protein was cloned and found to bind to various TATA elements and to substitute for TFIID in stimulating basal gene expression in in vitro transcription systems. However, it is possible that additional cellular factors can bind to the TATA element and influence the level of gene expression. By using lambda gt11 expression cloning with oligonucleotides corresponding to the human immunodeficiency virus 1 TATA element, we report the identification of a cellular protein with a calculated molecular mass of 123 kDa that we designate TATA element modulatory factor (TMF). TMF binds to the human immunodeficiency virus 1 TATA element in gel-retardation assays and inhibits activation of the viral long terminal repeat by the TATA-binding protein in in vitro transcription assays. TMF contains leucine-zipper amino acid motifs and exhibits homology in its DNA binding domain with the phage-encoded DNA binding protein Ner. Chromosomal mapping localizes the TMF gene to human chromosome 3p12-p21, which is a site of frequent rearrangements in lung and renal carcinomas. Thus, TMF is a transcription factor that likely regulates the expression of both viral and cellular genes.
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PMID:Cloning and chromosomal mapping of a human immunodeficiency virus 1 "TATA" element modulatory factor. 140 43

Human immunodeficiency virus (HIV) gene expression is regulated by both general transcription factors and factors induced by activation of T lymphocytes such as NF-kappa B and the nuclear factor of activated T cells (NFAT). Within the HIV long terminal repeat (LTR), two purine-rich domains between nucleotides -283 and -195 have homology to a regulatory region found in the interleukin 2 promoter, which binds NFAT and other cellular factors. In the HIV LTR, this region has been demonstrated to have both positive and negative regulatory effects on HIV gene expression. In an attempt to clone genes encoding cellular factors that bind to these NFAT-like elements in the HIV LTR, we used lambda gt11 expression cloning with oligonucleotides corresponding to these binding motifs. A ubiquitously expressed cDNA encoding a 60-kDa protein, which we termed interleukin binding factor (ILF), binds specifically to these purine-rich motifs in the HIV LTR. This factor also binds to similar purine-rich motifs in the interleukin 2 promoter, through with lower affinity than to HIV LTR sequences. Sequence analysis reveals that the DNA binding domain of ILF has strong homology to the recently described fork head DNA binding domain found in the Drosophila homeotic protein fork head and a family of hepatocyte nuclear factors, HNF-3. Other domains found in ILF include a nucleotide binding site, an N-glycosylation motif, a signal for ubiquitin-mediated degradation, and a potential nuclear localization signal. These results describe a DNA binding protein that may be involved in both positive and negative regulation of important viral and cellular promoter elements.
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PMID:Cloning of a cellular factor, interleukin binding factor, that binds to NFAT-like motifs in the human immunodeficiency virus long terminal repeat. 190 27

A cellular DNA binding protein, LBP-1, sequentially interacts in a concentration-dependent manner with two sites that surround the transcriptional initiation site of the human immunodeficiency virus type 1 (HIV-1) promoter. Although sequences in the downstream site (site I) were found to enhance transcription, purified LBP-1 specifically repressed transcription in vitro by binding to the upstream site (site II), which overlaps the TATA element. The binding of human TATA binding factor (TFIID) to the promoter before LBP-1 blocked repression, suggesting that repression resulted from an inhibition of TFIID binding to the TATA element. Furthermore, mutations that eliminated binding to site II both prevented repression in vitro and increased HIV-1 transcription in stably transformed cells. These findings suggest that a cellular factor regulates HIV-1 transcription in a manner that is characteristic of bacterial repressors and that this factor could be important in HIV-1 latency.
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PMID:Repression of HIV-1 transcription by a cellular protein. 200 21

The human immunodeficiency viruses (HIVs) types 1 and 2 have similar genetic organization but differ significantly in nucleic acid sequence. Although infection by either agent leads to symptoms of immunodeficiency, recent studies suggest potential differences in the time course and severity of these diseases. In this report, the transcriptional regulation and induction of these retroviruses were analyzed. We report that the regulation of HIV-2 differs from that of HIV-1: a distinct T-cell activation pathway, triggering of the CD3 component of the T-cell receptor complex, stimulates HIV-2 but not HIV-1 gene expression. The response to T-cell receptor stimulation in HIV-2 is mediated partly by an upstream regulatory element, termed CD3R, which is recognized by a sequence-specific DNA binding protein, NF-CD3R. Jurkat T leukemia cell lines containing HIV-2 provirus also showed increased viral replication after stimulation of the T-cell receptor complex, in contrast to HIV-1. These findings suggest that transcriptional regulation and induction of HIV-2 differ from HIV-1 and raise the possibility that different cofactors contribute to the activation of HIV-1- and HIV-2-associated AIDS.
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PMID:Differential regulation of human immunodeficiency viruses (HIVs): a specific regulatory element in HIV-2 responds to stimulation of the T-cell antigen receptor. 214 12

Human immunodeficiency virus (HIV) production from latently infected T lymphocytes can be induced with compounds that activate the cells to secrete lymphokines. The elements in the HIV genome which control activation are not known but expression might be regulated through a variety of DNA elements. The cis-acting control elements of the viral genome are enhancer and promoter regions. The virus also encodes trans-acting factors specified by the tat-III and art genes. We have examined whether products specific to activated T cells might stimulate viral transcription by binding to regions on viral DNA. Activation of T cells, which increases HIV expression up to 50-fold, correlated with induction of a DNA binding protein indistinguishable from a recognized transcription factor, called NF-kappa B, with binding sites in the viral enhancer. Mutation of these binding sites abolished inducibility. That NF-kappa B acts in synergy with the viral tat-III gene product to enhance HIV expression in T cells may have implications for the pathogenesis of AIDS (acquired immune deficiency syndrome).
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PMID:An inducible transcription factor activates expression of human immunodeficiency virus in T cells. 303 12

The enhancer element of the human immunodeficiency virus type I (HIV-I) long terminal repeat (LTR) contains two copies of nearly identical sequences AGGGACTTTCC (3G sequence) and GGGGACTTTCC (4G sequence) that are important in transcriptional regulation. A single copy of the 4G sequence is found in the NF-kappa B site of the immunoglobulin kappa-chain enhancer. Only the 4G motif in the HIV enhancer is bound by cellular proteins in extracts prepared from unstimulated HeLa cells, whereas the 3G and 4G motifs are bound by factors in extracts prepared from HeLa cells treated with phorbol esters [phorbol 12-myristate 13-acetate (PMA)] and lymphoid cells. To determine if this change in binding to the HIV enhancer was due to phosphorylation of a cellular protein, partially purified PMA-treated HeLa nuclear extracts were digested with calf intestinal phosphatase. Phosphatase digestion of nuclear extracts from PMA-treated HeLa cells markedly decreased factor binding to the HIV enhancer. Accordingly, phosphorylation of the DNA binding protein itself, or an inhibitor protein present in the partially purified extract, must mediate binding to the recognition sequence. Binding studies confirmed that each of the enhancer sequences was capable of binding factors independent of the activity of the other site and that the HIV enhancer was occupied by only one factor at any one time. Chloramphenicol acetyltransferase assays using mutants in either one or both HIV enhancer repeats revealed that each site was capable of functioning as a tat-inducible enhancer element in PMA-treated HeLa cells. These results suggest that the 3G and 4G motifs in the HIV enhancer function independently and that duplication in the HIV enhancer augments activity by a mechanism distinct from cooperative binding of NF-kappa B.
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PMID:Repeated B motifs in the human immunodeficiency virus type I long terminal repeat enhancer region do not exhibit cooperative factor binding. 320 Aug 27

The p66/p51 human immunodeficiency virus type 1 reverse transcriptase is a heterodimer with identical N-terminal amino acid sequences. The enzyme contains two polymerization domains and one RNase H domain, which is located at the C-terminus of the p66 subunit. Both polymerization domains fold into four individual subdomains that are not arranged in a similar fashion, forming an unusually asymmetric dimer. The complexity of the RT p66/p51 heterodimer structure is simplified using solvent-accessibility surface areas to describe the buried surface area of contact among the different subdomains. In addition, the RT/DNA contacts in the recently published RT/DNA/Fab structure [Jacobo-Molina et al., Proc. Natl Acad. Sci. USA, 90, 6320-6324 (1993)] are described using the same approach. Finally, the RT/DNA complex is compared with other dimeric DNA-binding proteins. It was found that the size of the protein and the extent of the dimer interface were not directly related to the extent of contact between the protein and the DNA. Furthermore, RT, the only protein that is not a sequence-specific DNA binding protein in this analysis, had the largest surface of interaction with the nucleic acid.
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PMID:Buried surface analysis of HIV-1 reverse transcriptase p66/p51 heterodimer and its interaction with dsDNA template/primer. 753 20

This study examined the effects of leukemia inhibitory factor (LIF) on human immunodeficiency virus (HIV) replication in mononuclear phagocytes (MNP). LIF induced a dose-dependent increase in p24 antigen production in the chronically infected promonocytic cell line U1. The magnitude and time kinetics of the LIF effects were similar to interleukin 1 (IL-1), IL-6, and tumor necrosis factor (TNF), other cytokines known to induce HIV replication in this cell line. To characterize mechanisms responsible for these LIF effects, levels of HIV mRNA, activation of the DNA binding protein nuclear factor (NF)-kB, signal transduction pathways, and potential interactions with other cytokines were analyzed. LIF increased steady-state levels of HIV mRNA at 2.0, 4.3, and 9.2 kB. This was detectable by 24 h and persisted until 72 h. The DNA binding protein NF-kB is a central mediator in cytokine activation of HIV transcription. NF-kB levels were higher in unstimulated U1 cells as compared to the parent cell line U937. In both cell lines LIF increased NF-kB activity. Induction of NF-kB and HIV replication by cytokines are at least in part dependent on reactive oxygen intermediates. The oxygen radical scavenger N-acetyl-L-cysteine, but not an inhibitor of nitric oxide synthase, inhibited LIF-induced HIV replication. LIF induces the production of other cytokines in monocytes but its effects on HIV replication were not inhibited by antibodies to IL-1, TNF, or IL-6. These results identify LIF as a stimulus of HIV replication.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Stimulation of HIV replication in mononuclear phagocytes by leukemia inhibitory factor. 820 43

A cellular DNA binding protein, which we term Leader Binding Protein-2 (LBP-2), binds near the transcriptional initiation site of the human immunodeficiency virus type 1 (HIV-1) promoter. This protein recognizes a motif similar to that of LBP-1, a putative repressor of transcription (Kato, H., et al., Science, 251, 1476-1479, 1991). LBP-2 is associated with transcriptional activation of HIV-1 by herpes simplex virus type 1 (HSV-1). Electrophoretic mobility shift assays showed that nuclear levels of this protein increase markedly following HSV-1 infection. Mutations of the LBP binding motif eliminate LBP-2 binding and interfere with HIV-1 activation by HSV-1. When inserted into an unrelated promoter, this motif confers transcriptional responsiveness to HSV-1 infection. Proteins that bind near the initiator element may be important regulators of HIV-1 gene expression.
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PMID:HSV-1 activation of HIV-1 transcription is augmented by a cellular protein that binds near the initiator element. 839 Jul 64

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