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Query: UMLS:C0019693 (HIV)
 170,526 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The activation of human immunodeficiency virus type 1 (HIV-1) expression in latently infected cells by exogenous agents is believed to be important in the progression of AIDS. Most factors that are known to activate HIV-1 gene expression increase the binding of NF-kappa B or NF-kappa B-like transcription factors to the HIV-1 core enhancer region. In this report, we demonstrate that retinoic acid (RA) treatment of promonocytic U937 cells stimulates expression from the simian immunodeficiency virus (SIVmac) long terminal repeat (LTR). Furthermore, RA and phorbol 12-myristate 13-acetate (PMA) synergistically stimulated both SIVmac and HIV-1 LTRs to levels of expression comparable to that achieved by the viral transactivator Tat. The cis-acting elements required for a response to RA and PMA cotreatment are located between nucleotides -50 and +1 of SIVmac and between nucleotides -83 and +80 of HIV-1. Thus, the synergistic stimulation induced by RA and PMA is NF-kappa B independent. Analysis of deletion mutants of the SIVmac LTR demonstrates that RA and PMA stimulation cooperates with NF-kappa B and Sp1. An SIVmac LTR-reporter gene construct [pLTR(-50/+466)CAT] lacking NF-kappa B and Sp1 binding sites was not activated by Tat in untreated cells but was activated in cells that were cotreated with RA and PMA. Furthermore, gel retardation assays demonstrated that RA treatment causes a change in the pattern of a cellular factor(s) which binds to the -50 through +1 region of the SIVmac LTR. These data suggest that RA induces a PMA-activatable cellular factor that cooperates with NF-kappa B, Sp1, or Tat to stimulate LTR-directed transcription.
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PMID:Synergistic activation of simian immunodeficiency virus and human immunodeficiency virus type 1 transcription by retinoic acid and phorbol ester through an NF-kappa B-independent mechanism. 808 95

The human immunodeficiency virus type 1 (HIV-1) long terminal repeat (LTR) is transactivated by various extracellular signals and viral cofactors that include human herpesviruses. These transactivators are capable of transactivating the HIV-1 LTR through the transactivation response element, NF-kappa B, or other regulatory binding elements. Human herpesvirus 6 (HHV-6) is a potential cofactor of HIV-1. Here, we report that an HHV-6 gene segment, ZVH14, which can neoplastically transform NIH 3T3 and human keratinocytes, is capable of transactivating HIV-1 LTR chloramphenicol acetyltransferase constructs in an Sp1 binding site-dependent manner. Transactivation increased synergistically in the presence of multiple Sp1 sites and was dramatically reduced by cotransfection with oligomers designed to form triplex structures with HIV-1 LTR Sp1 binding sites. HIV-1 LTR NF-kappa B sites were not essential for ZVH14-mediated transactivation. A putative open reading frame in ZVH14, B115, which may encode a highly basic peptide consisting of 115 amino acid residues, showed transactivation capacity similar to that of ZVH14. This open reading frame also transactivated the HIV-1 LTR in an Sp1 site-dependent fashion in African green monkey kidney cells and human T cells. These data suggest that HHV-6 may stimulate HIV-1 replication via transactivation of Sp1 binding sites present in the HIV-1 promoter.
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PMID:Identification and characterization of a human herpesvirus 6 gene segment capable of transactivating the human immunodeficiency virus type 1 long terminal repeat in an Sp1 binding site-dependent manner. 810 31

Analysis of the chromatin organization of the integrated human immunodeficiency virus type 1 (HIV-1) genome has previously revealed a major constitutive DNase I-hypersensitive site associated with the pol gene (E. Verdin, J. Virol. 65:6790-6799, 1991). In the present report, high-resolution mapping of this site with DNase I and micrococcal nuclease identified a nucleosome-free region centered around nucleotides (nt) 4490 to 4766. A 500-bp fragment encompassing this hypersensitive site (nt 4481 to 4982) exhibited transcription-enhancing activity (two- to threefold) when it was cloned in its natural position with respect to the HIV-1 promoter after transient transfection in U937 and CEM cells. Using in vitro footprinting and gel shift assays, we have identified four distinct binding sites for nuclear proteins within this positive regulatory element. Site B (nt 4519 to 4545) specifically bound four distinct nuclear protein complexes: a ubiquitous factor, a T-cell-specific factor, a B-cell-specific factor, and the monocyte/macrophage- and B-cell-specific transcription factor PU.1/Spi-1. In most HIV-1 isolates in which this PU box was not conserved, it was replaced by a binding site for the related factor Ets1. Factors binding to site C (nt 4681 to 4701) had a DNA-binding specificity similar to that of factors binding to site B, except for PU.1/Spi-1. A GC box containing a binding site for Sp1 was identified (nt 4623 to 4631). Site D (nt 4816 to 4851) specifically bound a ubiquitously expressed factor. These results identify a transcriptional regulatory element associated with a nuclease-hypersensitive site in the pol gene of HIV-1 and suggest that its activity may be controlled by a complex interplay of cis-regulatory elements.
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PMID:A transcriptional regulatory element is associated with a nuclease-hypersensitive site in the pol gene of human immunodeficiency virus type 1. 813 41

We have previously shown that the Tat protein of human immunodeficiency virus type 1 (HIV-1) transactivates tumor necrosis factor alpha and beta (TNF alpha and TNF beta) gene expression in HIV-1-infected and in tat-transfected T-lymphocytic and monocytic cell lines. The product encoded by the first exon of the tat gene (amino acids 1 to 72) is sufficient for this transactivation. Here we show that (i) the NF-kappa B and Sp1 binding sites of the TNF beta promoter are required for Tat-mediated transactivation and (ii) a predicted stem-loop structure in the TNF beta mRNA leader region, which resembles the Tat-responsive element of the HIV-1 long terminal repeat (TAR) and which is therefore termed TAR-like, is essential for TNF beta transactivation by Tat. These data suggest that similar promoter regulatory elements are necessary for Tat-mediated transactivation of both TNF beta and HIV-1 gene expression. This represents the first demonstration of a cellular gene with a regulatory element downstream of the transcriptional initiation site that, like TAR, may function as an RNA element.
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PMID:The human immunodeficiency virus type 1 Tat protein transactivates tumor necrosis factor beta gene expression through a TAR-like structure. 813 45

Pharmacological modulation of the interaction between transcription factors and target DNA sequences of cellular and viral genes could have important effects in the experimental therapy of a large variety of human pathologies. For instance, alteration of the DNA/protein interaction might be among the molecular mechanisms of action of DNA-binding drugs, leading to an inhibition of the expression of genes involved in the control of in vitro and in vivo growth of neoplastic cells and virus DNA replication. Natural oligopeptides, such as distamycin, are powerful inhibitors of the interaction between nuclear factors and target DNA sequences and, therefore, have been proposed as compounds retaining antibiotic, antineoplastic and antiviral properties. In this study we performed DNAase I footprinting analysis using a PCR product mimicking a region of the long terminal repeat (LTR) of the human immunodeficiency type 1 (HIV-1) retrovirus. The data obtained suggest that distamycin binds to different regions of the HIV-1 LTR depending on the DNA sequence. Electrophoretic mobility shift assays using both crude nuclear extracts from the Jurkat T-lymphoid cell line and the recombinant proteins transcription factor IID and Sp1 suggest that distamycin differentially inhibits the interaction of these two proteins with their specific DNA target sequences, in good agreement with the results obtained by DNAase I footprinting analysis.
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PMID:Sequence-specific recognition of the HIV-1 long terminal repeat by distamycin: a DNAase I footprinting study. 817 6

The SalI-L fragment of human herpesvirus 6 (HHV-6) strain U1102 transformed rodent cells and transactivated the HIV-1 LTR 10- to 15-fold in both monkey fibroblasts and human T-lymphocytes. In this report, the SalI-L transactivator of the HIV-1 LTR was localized to ORF-1 which codes for a protein of 357 amino acids. To determine if ORF-1 required functional Sp1 binding sites or the TATA box element of HIV-1 LTR for transactivation, 5'-deletion mutants of the HIV-1 LTR were employed. Plasmids pBS/SalI-L, pBS/SalI-L-SH, and pC6/ORF-1(S), a mammalian expression vector containing ORF-1, all transactivated a deletion mutant of HIV-1 LTR lacking functional Sp1 binding sites (CD-54). These studies demonstrate that transactivation occurred in the absence of Sp1 binding sites and required only a minimal HIV-1 promoter which contains the TATA box element. The specificity of the SalI-L transactivator for HIV-1 LTR was demonstrated by its inability to transactivate the human papillomavirus type 16 or 18 early promoters. The ORF-1 gene was cloned into and expressed from the pET17b bacterial expression vector. Purified ORF-1 protein was obtained by ammonium sulfate precipitation, Mono-S chromatography, and anti-T7. Tag immunoaffinity chromatography. Transactivation of the HIV-1 LTR by ORF-1 protein was demonstrated by electroporation studies in vivo and by transcription studies in vitro. To substantiate the putative biological role of ORF-1, pBS/SalI-L, pBS/SalI-L-SH, and pC6/ORF-1 all reactivated tat-defective HIV-1 provirus from latently infected cells expressing CD4. Thus, the data presented suggest that HHV-6 infection could have a cofactor role in the progression of AIDS.
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PMID:Transcriptional activation of minimal HIV-1 promoter by ORF-1 protein expressed from the SalI-L fragment of human herpesvirus 6. 817 93

The p53 tumor suppressor gene product, a sequence-specific DNA-binding protein, has been shown to act as a transcriptional activator and repressor both in vitro and in vivo. Consistent with its role in regulating transcription are recent observations that the N-terminal acidic domain of p53 binds directly to the TATA box-binding protein subunit of the general transcription factor, TF IID. It is now demonstrated that wild-type p53 (wt-p53) inhibits human immunodeficiency virus type 1 (HIV-1) long terminal repeat (LTR)-directed chloramphenicol acetyltransferase activity in a cotransfection assay system. Importantly, this effect of wt-p53 on the HIV-1 LTR was also demonstrated by in vitro transcription assays. In addition, the Sp1 sites and the TATA box of the HIV-1 LTR are demonstrated to be the primary sites involved with p53-induced effects on this viral promoter. The upstream elements of the HIV-1 LTR, including the nuclear factor kappa B (NF-kappa B) binding sites, decrease the p53-induced inhibitory effects on viral transcription. In the presence of the HIV-1 TAR sequence and Tat protein, the HIV-1 LTR also becomes less sensitive to wt-p53-induced inhibition. By using a retroviral vector delivery system, mutant forms of p53 genes were expressed in two HIV-1 latently infected cell lines, ACH-2 and U1. In the ACH-2 cell line, which is now demonstrated to contain an endogenous mutant form of p53 (amino acid 248, Arg to Gln), additional mutant p53 proteins did not alter HIV-1 replication. In U1 cells, which completely lack endogenous p53, overexpression of mutant p53 led to an increase in HIV-1 replication. Thus, these data indicate a possible functional role for wt-p53 and mutant p53 proteins in the control of HIV-1 replication patterns and proviral latency.
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PMID:The tumor suppressor protein p53 strongly alters human immunodeficiency virus type 1 replication. 820 5

A region of the human Ha-ras promoter (-8 to -28) which contains two of the three Sp1 binding sites essential for transcriptional activity forms a sequence specific oligonucleotide-directed pur*pur:pyr triple helix. The relative binding of oligonucleotides containing different substitutions, including an abasic propanediol linker, over three potentially destabilizing C:G interruptions in the otherwise poly G:poly C target was examined. DNase I footprint titrations reveal that substitution of the positively charged abasic propanediol linker results in approximately ten fold greater binding than cytosine substitution which in turn provides greater sequence specific binding than substitution of a guanine in the third strand oligonucleotide over the C:G interruptions. Protein binding assays demonstrate that triplex formation by the linker substituted oligomer (HR21Xap) is less effective in inhibiting Sp1 binding than the cytosine substituted oligomer (HR21ap) both to the target sequence as well as an upstream sequence. As an indication of the effect of linker substitution and targeting consensus Sp1 sites on triplex specificity, the relative ability of the Ha-ras promoter targeted oligonucleotides to interact with non-target Sp1 sequences within the Ha-ras promoter as well as in the DHFR promoter and HIV-1 LTR was also investigated. At concentrations which afford complete DNase I protection of the target sequence, HR21ap does not bind to the non-target sequences while HR21Xap interacts weakly only at a distal site in the DHFR promoter. Also, HR21ap as well as HR21Xap are specific in their inhibition of Sp1 binding. These results suggest that the propanediol linker is able to skip over interruptions in a target sequence thereby stabilizing triplex but, slightly compromises sequence specificity and the ability to inhibit Sp1 binding to the Ha-ras promoter.
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PMID:Effect of abasic linker substitution on triplex formation, Sp1 binding, and specificity in an oligonucleotide targeted to the human Ha-ras promoter. 820 18

Expression of the human immunodeficiency virus type 1 (HIV-1) is strongly activated by Tat. The proper action of Tat requires three elements: TATAA, TAR, and upstream motifs in the HIV-1 long terminal repeat. We show here that the correct spatial arrangement among Tat, Sp1, and TATAA crucially influences HIV expression. Under conditions in which basal promoter activity is unperturbed, distancing Sp1 from TATAA markedly affected Tat trans activation. An increase in the Sp1-TATAA distance from 18 to 101 nucleotides (depending on the inserted sequence) rendered HIV-1 either partially or wholly replication defective. This critical dependence on spacing suggests that Tat-, Sp1-, and TATAA-binding factors must correctly contact each other for optimal expression and replication of HIV-1.
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PMID:Increased spacing between Sp1 and TATAA renders human immunodeficiency virus type 1 replication defective: implication for Tat function. 823 Apr 15

Expression of the human immunodeficiency virus type 1 (HIV-1) provirus in T lymphocytic and monocytic cells can be induced by treatment with hexamethylene bisacetamide (HMBA). The induction occurs at the transcriptional level within 1 to 3 h after the addition of the drug, and is not associated with detectable changes in the binding of transcription factors to the enhancer, TATA box or other regulatory regions of the HIV-1 long terminal repeat (LTR). Using the 5' deletion mutants of HIV-1 LTR controlling the expression of the chloramphenicol acetyltransferase gene, we found that the deletion of the kappa B enhancer did not affect HIV-1 inducibility, whereas the deletion of the Sp1 binding sites abolished transcriptional activation. However, the presence of the HIV-1 LTR Sp1 binding sites in the context of the heterologous promoter did not induce responsiveness to HMBA. We conclude that HMBA increases transcription through the secondary modification of the basal transcription complex suggesting the existence of a regulatory pathway that circumvents the requirement for the induction of NF-kappa B or other DNA-specific binding proteins.
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PMID:Hexamethylene bisacetamide activates the human immunodeficiency virus type 1 provirus by an NF-kappa B-independent mechanism. 824 55


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