Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0019693 (HIV)
 170,526 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The 12 bp stem of the RNA hairpin responsible for the gag-pol frameshifting of the ribosomes during translation of the polycistronic HIV-1 mRNA has a pyrimidine-rich 5' strand and, consequently, a purine-rich 3' strand. Electrophoretic mobility shift assays have shown that DNA oligopyrimidines, 12 and 20 nucleotides long (but not oligopurines or G,T-containing oligomers), designed to form triplexes actually bind to the double-stranded RNA target. RNase V1 footprinting studies have confirmed the interaction between the hairpin stem and the RNA and 2'-O-methyl oligoribonucleotide analogues of the 12-mer oligodeoxypyrimidine as well as 5 propynyl,cytosine, containing the 12-mer oligodeoxypyrimidine, bind more strongly to the RNA target than the unmodified parent DNA oligomer. The complexes formed by the RNA hairpin and either the 12-mer oligodeoxypyrimidine or the 20-mer oligopyrimidine are stable at a neutral pH and in the absence of Mg2+ but blocked neither the reverse transcription nor cell-free translation of a RNA template in which the gag-pol frameshifting hairpin was inserted at the 5' end of the luciferase open reading frame.
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PMID:Binding of oligopyrimidines to the RNA hairpin responsible for the ribosome gag-pol frameshift in HIV-1. 1033 25

The construction and characterization of a versatile bioassay for the quantification of HIV-1 viral infection and HIV-1 Tat protein activity based on recombinant adenoviral vectors carrying an HIV LTR-driven luciferase reporter gene is described. The assay system consists of a set of two adeno-reporter vectors, one of which is responsive to HIV-1 Tat protein activity, and the second of which is not, by virtue of a deletion of the TAR site within the HIV LTR. This configuration of the reporter genes allows one to distinguish Tat-specific activation from Tat-non-specific HIV LTR-mediated gene expression. The adenoviral HIV LTR-mediated luciferase gene expression is highly responsive to Tat and increases linearly with increasing levels of HIV-1 infection, reaching levels of between 3- and 1000-fold induction. The adeno-reporter viruses can be utilized to detect Tat activity and HIV-1 infection in a wide range of cell types, including 293, CEM, HUT-78, Jurkat, and HeLa-derived cell lines. The resulting bioassay is convenient, sensitive, and readily adaptable to automated procedures. These characteristics of the adeno-reporter assay make it a valuable reagent for studies of HIV infection and for analysis of HIV-inhibitory agents.
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PMID:A sensitive and versatile bioluminescence bioassay for HIV type 1 based on adenoviral vectors. 1035 71

Phorbol 12-myristate 13-acetate (PMA)-induced HIV-1 production in U1 cells was markedly suppressed by inhibitors of poly (ADP-ribose) polymerase (PARP). Northern blot analysis revealed that the PARP-inhibitors suppressed the virus production at a level of transcription. In order to examine the effect of PARP on transcriptional regulation of HIV-1 genes, we transfected a reporter plasmid containing HIV-1-LTR-promoted luciferase gene to L-1210 cell clones, which expressed varying decreased level of PARP. In wild type L-1210 cells, the expression of LTR-promoted luciferase gene was stimulated approximately 4-fold in response to PMA, whereas the PMA-dependent response was almost abolished in mutant cells, which expressed only 8% of PARP of the wild type cells. The effect of decrease in PARP content on the function of HIV-1-LTR was confirmed also in human wild type cells, Jurkat and J111, which were co-transfected with the reporter plasmid and a plasmid expressing a PARP-antisense RNA: Down-regulation of PARP in the cells by the expression of the antisense RNA significantly suppressed the PMA-dependent, LTR-function of the reporter plasmid in both Jurkat and J111 cells. NF-kappaB, which is known to mediate the PMA-induced activation of HIV-1 in U1 cells, was found to be activated approximately 5-fold in PMA-treated U1 cells. PARP-inhibitor, unexpectedly, did not suppress but rather stimulated (approximately 2-fold) the NF-kappaB activation. Combining the results with the finding that the LTR-function was minimum in a PARP-defective mutant cells in spite of a very high level of the activated NF-kappaB in the cells, we suggest that PARP, in addition to activated NF-kappaB, is essential for the function of HIV-1 LTR.
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PMID:Poly (ADP-ribose) polymerase is involved in PMA-induced activation of HIV-1 in U1 cells by modulating the LTR function. 1044 6

Vector-mediated delivery of potentially antivirally active genes is a key step in somatic gene therapy including therapeutic approaches against AIDS. A crucial technical prerequisite is to monitor DNA transfer into target cells. Here, we describe recombinant infectious particles derived from the adeno-associated virus type 2 (AAV-2) that are suitable to deliver effective HIV-1-directed antisense and ribozyme genes into target cells. To monitor transduction, we designed and tested a number of fusions between indicator-coding sequences of luciferase or gfp with effective HIV-1-directed antisense or ribozyme sequences. The combination of an indicator function and an antiviral func- tion in cis allows successful identification of transduced cells and measurement of effects on the replication of HIV-1 in antisense/ribozyme-expressing cells only. The fusion genes were shown to express the indicator genes. Inhibition of HIV-1 replication mediated by the antisense/ribozyme portion of the fusion transcripts was similar to parental constructs and neither acute nor long-term toxicity of fusion genes and their gene products was observed. These results suggest the use of rAAV constructs described here as tools to study the transducibility of target cells, gene expression and efficacy of HIV-1-directed antisense and ribozyme genes.
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PMID:Recombinant AAV-2 harboring gfp-antisense/ribozyme fusion sequences monitor transduction, gene expression, and show anti-HIV-1 efficacy. 1045 31

Nine different DNA enzymes (DzV3-n, n=1-9) targeting the V3 loop region of HIV-1 HXB2 were synthesized. One of those, DzV3-9, efficiently cleaved the target in the conserved sequence in the RNA transcript in vitro. DzV3-9 was stable in the cells and inhibited replication of both NL432 and SF162 strains in U87 cells expressing CD4 and co-receptors. The inhibitory effect of DNAzyme on incoming HIV-1 was also demonstrated with pseudotype virions generated by NL432-based luciferase reporter genes. Thus, an efficient, stable DNAzyme against a functionally important region of HIV-1 was identified, and it may be useful for prevention of HIV-1 infection.
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PMID:Inhibition of infection of incoming HIV-1 virus by RNA-cleaving DNA enzyme. 1048 Oct 55

Human immunodeficiency virus type 1 (HIV-1) replicates primarily in lymphoid tissues where it has ready access to activated immune competent cells. We used one of the major pathways of immune activation, namely, CD40-CD40L interactions, to study the infectability of B lymphocytes isolated from peripheral blood mononuclear cells. Highly enriched populations of B lymphocytes generated in the presence of interleukin-4 and oligomeric soluble CD40L upregulated costimulatory and activation markers, as well as HIV-1 receptors CD4 and CXCR4, but not CCR5. By using single-round competent luciferase viruses complemented with either amphotropic or HIV-derived envelopes, we found a direct correlation between upregulation of HIV-1 receptors and the susceptibility of the B lymphocytes to infection with dual-tropic and T-tropic strains of HIV-1; in contrast, cells were resistant to M-tropic strains of HIV-1. HIV-1 envelope-mediated infection was completely abolished with either an anti-CD4 monoclonal antibody or a peptide known to directly block CXCR4 usage and partially blocked with stromal cell-derived factor 1, all of which had no effect on the entry of virus pseudotyped with amphotropic envelope. Full virus replication kinetics confirmed that infection depends on CXCR4 usage. Furthermore, productive cycles of virus replication occurred rapidly yet under most conditions, without the appearance of syncytia. Thus, an activated immunological environment may induce the expression of HIV-1 receptors on B lymphocytes, priming them for infection with selective strains of HIV-1 and allowing them to serve as a potential viral reservoir.
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PMID:CD40-Mediated induction of CD4 and CXCR4 on B lymphocytes correlates with restricted susceptibility to human immunodeficiency virus type 1 infection: potential role of B lymphocytes as a viral reservoir. 1048 44

CD4-selective targeting of an antibody-polycation-DNA complex was investigated. The complex was synthesized with the anti-CD4 monoclonal antibody B-F5, polylysine268 (pLL) and either the pGL3 control vector containing the luciferase reporter gene or the pGeneGrip vector containing the green fluorescent protein (GFP) gene. B-F5-pLL-DNA complexes inhibited the binding of 125I-B-F5 to CD4+Jurkat cells, while complexes synthesised either without B-F5 or using a non-specific mouse IgG1 antibody had little or no effect. Expression of the luciferase reporter gene was achieved in Jurkat cells using the B-F5-pLL-pGL3 complex and was enhanced in the presence of PMA. Negligible luciferase activity was detected with the non-specific antibody complex in Jurkat cells or with the B-F5-pLL-pGL3 complex in the CD4- K-562 cells. Using complexes synthesised with the pGeneGrip vector, the transfection efficiency in Jurkat and K-562 cells was examined using confocal microscopy. More than 95% of Jurkat cells expressed GFP and the level of this expression was markedly enhanced by PMA. Negligible GFP expression was seen in K-562 cells or when B-F5 was replaced by a non-specific antibody. Using flow cytometry, fluorescein-labelled complex showed specific targeting to CD4+ cells in a mixed cell population from human peripheral blood. These studies demonstrate the selective transfection of CD4+ T-lymphoid cells using a polycation-based gene delivery system. The complex may provide a means of delivering anti-HIV gene therapies to CD4+ cells in vivo.
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PMID:Gene transfer and expression of a non-viral polycation-based vector in CD4+ cells. 1051 28

The infection of human cells by HIV-1 virus can be mimicked by a fusion process between cells expressing the HIV envelope protein (Env) and cells expressing both human CD4 (huCD4) and appropriate human chemokine receptors. In this study, a macrophage-tropic (M-tropic) HIV cell-cell fusion assay was established that utilized huCD4, human CCR5 (huCCR5), and HIV ADAgpl60 as fusion components and a Gal4/VP16-activated luciferase as a reporter system. By combining CHO cells expressing huCD4 and huCCR5 with CHO cells expressing HIV ADAgpl60, a 300-fold increase in luciferase activity could be elicited relative to control. No luciferase activity was detected when HXB2gpl60 (T-tropic) was used instead of ADAgpl60 (M-tropic) as the fusion partner in the assay. Addition of anti-huCD4 (RPA-T4) or anti-huCCR5 (2D7) monoclonal antibodies in the assay significantly inhibited the fusion event; in contrast, an anti-CXCR4 (12G5) monoclonal antibody had little effect, indicating that the fusion assay was huCD4 and huCCR5 dependent. The cell-cell fusion occurred in a time-dependent manner; the maximum luciferase activity was detected about 8 hr after mixing the cells. The fusion events could also be monitored by another reporter system in which Gal4/VP16 activated green fluorescent protein (GFP) was used as the reporter instead of luciferase. In combination with fluorescence microscopy, the GFP reporter system allowed visualization of the fusion events in real time. Compared with previously described HIV fusion models, this system has several advantages, including simplicity, sensitivity, and the ability to allow continuous monitoring of the HIV cell-cell fusion event. Finally, this cell-cell fusion system is easily adapted to study other HIV fusion events.
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PMID:New reporter cell lines to study macrophage-tropic HIV envelope protein-mediated cell-cell fusion. 1060 89

A 2'-O-methylribooligonucleotide containing a G1.U.G3 triad modified by trans-diamminedichloro-platinum(II) was targeted to the RNA region responsible for the gag-pol frameshifting during translation of the HIV-1 mRNA. The binding of the platinated oligonucleotide to its target RNA induced a rearrangement of the (G1, G3)-intrastrand crosslink, leading to the formation of an intermolecular oligonucleotide-RNA G-A crosslink. This resulted in the selective arrest of translation of a luciferase gene placed downstream of the HIV-1 frameshift signal both in a cell-free extract (rabbit reticulocyte lysate) and in RNA-transfected cells. A specific inhibition of luciferase activity was still observed when the oligonucleotide-RNA complex was not pre-formed prior to either translation or transfection. Moreover, a selective inhibition was also observed when the oligonucleotide and the plasmid DNA encoding the luciferase and bearing the RNA gag- pol frameshifting signal were co-transfected in NIH 3T3 cultured cells. Therefore the intra-strand-->interstrand conversion of the platinum crosslink kinetically competes with the translation machinery and blocks the polypeptide elongation. These transplatin-modified oligonucleotides which operate within a live cell on a 'real-time' basis and do not need an external triggering signal constitute a promising new class of selective reactive probes.
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PMID:Inhibition of in vitro and ex vivo translation by a transplatin-modified oligo(2'-O-methylribonucleotide) directed against the HIV-1 gag-pol frameshift signal. 1060 41

Cyclosporin A (CsA) is a potent inhibitor of the NFAT family of transcription factors that enhance T cell activation. The observation that human immunodeficiency virus type 1 (HIV-1)-positive transplant recipients have a reduced HIV-1 viral burden during treatment with CsA suggested that NFAT may play a direct role in enhancing transcription of the HIV-1 viral genome. Two sets of NFAT binding sites were identified in the HIV-1 long terminal repeat (LTR) promoter by in vitro footprinting with full-length recombinant NFAT protein, and gel shift analysis of nuclear protein from polyclonally activated primary CD4 T cells revealed specific binding of NFAT1 to the NFkappaB binding sites of the HIV-1 LTR. Activation of primary CD4 T cells transiently transfected with a HIV-1 LTR luciferase reporter plasmid, lacking the NFAT binding sites in the upstream putative negative regulatory element but maintaining the NFkappaB/NFAT sites, demonstrated increased HIV-1 gene expression when cotransfected with a NFAT1 expression vector. Moreover, CsA, FK506, and a dominant-negative NFAT1 protein independently inhibited HIV-1 LTR promoter activity in CD4 T cells stimulated with phorbol ester and calcium ionophore. In primary human CD4 T cells, CsA also inhibited promoter activity directed by multimers of binding sites for NFAT, while having no effect on NFkappaB multimer-driven promoter activity. Increasing NFAT1 levels in CD4 T cells transiently transfected with a HIV-1 provirus also increased p24 protein expression. Thus, NFAT may be a target for prevention of HIV-1 LTR-directed gene expression in human CD4 T cells.
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PMID:NFAT1 enhances HIV-1 gene expression in primary human CD4 T cells. 1069 37


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