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 human immunodeficiency virus 1 (HIV-1) Rev transactivator protein plays a critical role in the regulation of expression of structural proteins by controlling the pathway of mRNA transport. The Rev protein is located predominantly in the nucleoli of HIV-1 infected or Rev-expressing cells. Previous studies demonstrated that the Rev protein forms a specific complex in vitro with protein B23 which is suggested to be a nucleolar receptor and/or carrier for the Rev protein. To study the role of the nucleolus and nucleolar proteins in Rev function, transfected COS-7 or transformed CMT3 cells expressing the Rev protein were examined for subcellular locations of Rev and other proteins using indirect immunofluorescence and immunoelectron microscopy. One day after transfection the Rev protein was found in most cells only in the nucleolar dense fibrillar and granular components where it colocalized with protein B23. These were designated class 1 cells. In a second class of cells Rev and B23 accumulated in the nucleoplasm as well as in nucleoli. Treatment of class 1 cells with actinomycin D (AMD) under conditions that blocked only RNA polymerase I transcription caused Rev to completely redistribute from nucleoli to the cytoplasm. Simultaneously, protein B23 was partially released from nucleoli, mostly into the nucleoplasm, with detectable amounts in the cytoplasm. In cells recovering from AMD treatment in the presence of cycloheximide Rev and B23 showed coincident relocation to nucleoli. Class 2 cells were resistant to AMD-induced Rev redistribution. Selective inhibition of RNA polymerase II transcription by alpha-amanitin or by DRB did not cause Rev to be released into the cytoplasm suggesting that active preribosomal RNA transcription is required for the nucleolar location of Rev. However, treatment with either of the latter two drugs at higher doses and for longer times caused partial disruption of nucleoli accompanied by translocation of the Rev protein to the cytoplasm. These results suggest that the nucleolar location of Rev depends on continuous preribosomal RNA transcription and a substantially intact nucleolar structure.
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PMID:The roles of nucleolar structure and function in the subcellular location of the HIV-1 Rev protein. 759 22

The TAR element is a viral regulatory element extending from +1 to +60 in the human immunodeficiency virus type 1 (HIV-1) long terminal repeat, which is critical for activation by the transactivator protein Tat. Jurkat cell lines chronically infected with viruses containing HIV-1 TAR element mutations are extremely defective for both gene expression and replication. We previously demonstrated that viruses containing mutations of the TAR RNA stem, bulge, or loop structures have 200- to 5,000-fold-reduced levels of gene expression compared with lymphoid cells harboring wild-type virus. In this study, we characterized several Jurkat cell lines infected with TAR element mutant viruses which spontaneously produced culture supernatants with wild-type-like levels of reverse transcriptase activity. These viral supernatants were used to infect Jurkat cells, and following PCR amplification of the viral long terminal repeats, their DNA sequences were analyzed. This analysis demonstrated that revertant viruses isolated from these cell lines retained the original TAR mutations but also contained additional compensatory mutations within TAR. In gel retardation analysis, recombinant Tat protein bound to higher levels to in vitro-transcribed revertant TAR RNAs than the original TAR RNA mutants. Both the original and revertant TAR elements were inserted into both chloramphenicol acetyltransferase reporter and HIV-1 proviral constructs and assayed following transfection of Jurkat cells. Constructs containing revertant TAR element mutations were capable of strong activation by Tat in contrast to constructs containing the original TAR mutations. Analysis of the secondary structure of TAR RNA sequences suggested that TAR RNA structures which differed from that of wild-type TAR were still capable of strong activation in response to Tat. These results further define critical sequences in TAR RNA that are required for tat activation. In addition, since TAR structures with lower free energy that preserve the loop and bulge structures may be favored over fully formed TAR RNA with higher stable free energy, these results implicate nascent RNA rather than the fully formed TAR RNA structure as the target for tat activation.
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PMID:Human immunodeficiency virus type 1 TAR element revertant viruses define RNA structures required for efficient viral gene expression and replication. 760 59

Human adenovirus E1A proteins can repress the expression of several viral and cellular genes. By using a cell-free transcription system, we demonstrated that the gene product of the E1A 12S mRNA, the 243-residue protein E1A243R, inhibits basal transcription from the human immunodeficiency virus type 1 (HIV-1) long terminal repeat (LTR). The HIV-1 transactivator protein Tat greatly stimulates transcription from the viral promoter in vitro. However, E1A243R can repress Tat-activated transcription in vitro. Strong repression of both basal and Tat-activated transcriptions requires only E1A N-terminal amino acid residues 1 to 80. Deletion analysis showed that E1A N-terminal amino acids 4 to 25 are essential for repression, whereas amino acid residues 30 to 49 and 70 to 80 are dispensable. Transcriptional repression by E1A in the cell-free transcription system is promoter specific, since under identical conditions, transcription of the adenovirus major late promoter and the Rous sarcoma virus LTR promoter was unaffected. The repression of transcription by small E1A peptides in vitro provides an assay for investigation of molecular mechanisms governing E1A-mediated repression of both basal and Tat-activated transcriptions of the HIV-1 LTR promoter.
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PMID:Repression in vitro, by human adenovirus E1A protein domains, of basal or Tat-activated transcription of the human immunodeficiency virus type 1 long terminal repeat. 770 15

The regulation of human cytomegalovirus (hCMV) and human immunodeficiency virus (HIV) gene expression has been studied in single intact mammalian cells. Viral promoters were placed upstream of the firefly luciferase reporter gene and the resulting hybrid reporter constructs were stably integrated into the HeLa cell genome. A highly sensitive photon-counting camera system was used to study the level of gene expression in single intact cells. Luciferase expression was studied in the absence of activators of viral gene expression, in the presence of the HIV-1 TAT transactivator protein, or in the presence of sodium butyrate, a non-viral activator of gene expression. In the absence of any activator of gene expression, while expression was undetectable in most cells, significant levels of basal luciferase activity were observed in a few cells, indicating heterogeneity in gene expression in the cell population. In the presence of the general activator of viral gene expression, sodium butyrate, transcriptional activation from the viral promoters gave rise to significant and relatively homogeneous levels of luciferase expression in a majority of cells. The luciferase imaging technology was used for the real-time analysis of changes of gene expression within a single cell. This non-invasive reporter assay should become important for studies of the temporal regulation of gene expression in single cells.
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PMID:Real-time analysis of the transcriptional regulation of HIV and hCMV promoters in single mammalian cells. 776 92

The human immunodeficiency virus-1 transactivator protein (tat) was codelivered efficiently with a reporter gene under the control of a tat-responsive DNA element using different formulations of cationic liposomes. Expression of a tat-responsive reporter gene was induced by incubating cells with a mixture of purified recombinant tat protein, reporter DNA, and liposomes. Different cell lines were tested successfully as targets for the codelivery. Tat was shown to trans-activate the codelivered virus promoter specifically in the cells tested. Codelivery of tat with DNA is a useful model for studying the function of trans-acting factors and their cis-acting DNA elements. The currently available methods such as foot-printing only reveal the binding, but not the functional consequence of the binding, of the factor with the element. In addition, this system may prove useful as a model for high level and regulated transgene expression in target cells.
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PMID:Codelivery to mammalian cells of a transcriptional factor with cis-acting element using cationic liposomes. 777 90

The human immunodeficiency virus (HIV-1) encodes a transactivator protein, the product of the tat gene (tat), which is essential for virus replication. In this study, immunogold electron microscopy was used in a stably transfected Jurkat T-cell line that constitutively expresses HIV-1 tat protein to determine the subcellular and intranuclear distribution of tat protein. Two nucleocytoplasmic shuttle proteins C23/nucleolin and B23 and a third nucleolar antigen that was detected by monoclonal antibody MAb 1277 were also examined. In addition, spatial association of C23 and B23 with tat protein at several subcellular locations was examined in dual-labeling experiments. The results showed that tat protein was found in both the cytoplasm and nucleus but was especially prominent within the dense fibrillar and granular components of the nucleolus. There was little labeling of tat protein in the fibrillar centers where MAb 1277 antigen was localized at a comparatively high level. The subcellular and intranucleolar distribution of tat protein was virtually identical to the pattern seen with C23 and B23. Although the intranuclear distributions of C23, B23 and tat protein were very similar, C23 and tat protein were seldom spatially associated. In contrast, B23 and tat protein were frequently spatially associated in the nucleolus and in several other subcellular locations including the cytoplasm, nucleoplasm, at the nuclear envelope and plasma membrane. While a physical association was not directly demonstrated in this study, the spatial association between B23 and tat protein strongly suggest that such an association may exist.
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PMID:Spatial association of HIV-1 tat protein and the nucleolar transport protein B23 in stably transfected Jurkat T-cells. 782 6

Tat, the transcriptional transactivator protein of the human immunodeficiency virus type 1 (HIV-1), is required for viral replication in vitro. The Tat antagonist, Ro 5-3335, and its analog, Ro 24-7429, have been shown to inhibit replication of HIV-1 and to reduce steady-state viral RNA in infected cells (M.-C. Hsu et al., Science 254:1799-1802, 1991, and M.-C. Hsu et al., Proc. Natl. Acad. Sci. USA 90:6395-6399, 1993). Analysis of HIV-1 long terminal repeat-driven reporter gene transcription in a recombinant adenovirus by nuclear run-on assay indicated that the drug predominantly inhibits Tat-dependent initiation and also exerts a measurable effect on elongation. This result may imply a common mechanism for Tat-mediated transcription initiation and elongation.
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PMID:The human immunodeficiency virus type 1 Tat antagonist, Ro 5-3335, predominantly inhibits transcription initiation from the viral promoter. 788 17

The hypusine-containing protein eukaryotic initiation factor 5A (eIF-5A) is a cellular cofactor critically required for the function of the Rev transactivator protein of human immunodeficiency virus type 1 (HIV-1). eIF-5A localizes in the nuclear and cytoplasmic compartments of mammalian cells, suggesting possible activities on the level of regulated mRNA transport and/or protein translation. In this report we show that eIF-5A gene expression is constitutively low but inducible with T-lymphocyte-specific stimuli in human peripheral blood mononuclear cells (PBMCs) of healthy individuals. In contrast, eIF-5A is constitutively expressed at high levels in human cell lines as well as in various human organs. Comparison of eIF-5A levels in the PBMCs of uninfected and HIV-1-infected donors shows a significant upregulation of eIF-5A gene expression in the PBMCs of HIV-1 patients, compatible with a possible role of eIF-5A in HIV-1 replication during T-cell activation.
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PMID:Induced gene expression of the hypusine-containing protein eukaryotic initiation factor 5A in activated human T lymphocytes. 797 69

The human immunodeficiency virus type 1 (HIV-1) TAR element is critical for the activation of gene expression by the transactivator protein, Tat. Mutagenesis has demonstrated that a stable stem-loop RNA structure containing both loop and bulge structures transcribed from TAR is the major target for tat activation. Though transient assays have defined elements critical for TAR function, no studies have yet determined the role of TAR in viral replication because of the inability to generate viral stocks containing mutations in TAR. In the current study, we developed a strategy which enabled us to generate stable 293 cell lines which were capable of producing high titers of different viruses containing TAR mutations. Viruses generated from these cell lines were used to infect both T-lymphocyte cell lines and peripheral blood mononuclear cells. Viruses containing TAR mutations in either the upper stem, the bulge, or the loop exhibited dramatically decreased HIV-1 gene expression and replication in all cell lines tested. However, we were able to isolate lymphoid cell lines which stably expressed gene products from each of these TAR mutant viruses. Though the amounts of virus in these cell lines were roughly equivalent, cells containing TAR mutant viruses were extremely defective for gene expression compared with cell lines containing wild-type virus. The magnitude of this decrease in viral gene expression was much greater than previously seen in transient expression assays using HIV-1 long terminal repeat chloramphenicol acetyltransferase gene constructs. In contrast to the defects in viral growth found in T-lymphocyte cell lines, several of the viruses containing TAR mutations were much less defective for gene expression and replication in activated peripheral blood mononuclear cells. These results indicate that maintenance of the TAR element is critical for viral gene expression and replication in all cell lines tested, though the cell type which is infected is also a major determinant of the replication properties of TAR mutant viruses.
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PMID:Differential growth kinetics are exhibited by human immunodeficiency virus type 1 TAR mutants. 805 69

Transcription directed by the human immunodeficiency virus type 2 long terminal repeat (HIV-2 LTR) responds to T-cell antigen receptor signaling. Agents that stimulate T-cell signaling pathways activated by the antigen receptor, such as phorbol ester, plant lectin, or anti-CD3 antibody treatment, have been shown to increase transcription directed by the HIV-2 LTR. In this study, we examine the activation of the HIV-2 LTR in T cells stimulated with the physiologic ligand of the T-cell receptor, antigenic peptide presented by a major histocompatibility molecule. HIV-2 reporter plasmids were transfected into the antigen-specific T-cell hybridoma, 2B4.11, where they responded to antigen-dependent activation. This antigen-mediated transcriptional activation of the HIV-2 enhancer required the presence of at least four regulatory elements in the HIV-2 enhancer, including two purine boxes, PuB1 and PuB2, an AP-1/CREB-like element (pets), and kappa B. This finding suggests that signals emanating from the antigen receptor act coordinately on a set of transcription factors that bind to conserved HIV-2 regulatory elements. Despite differences in the organization of potentially related enhancer elements in HIV-2 and IL-2, these enhancers exploit a similar signal transduction pathway to induce gene expression in antigen-activated T cells.
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PMID:Multiple cis-acting elements in the human immunodeficiency virus type 2 enhancer mediate the response to T-cell receptor stimulation by antigen in a T-cell hybridoma line. 814 52

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