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

Human immunodeficiency virus type 2 (HIV-2) displays several features which distinguish it from HIV-1. Among the differences in these two viruses are the responses of their enhancer regions to T-cell activation. For example, stimulation of HIV-1 transcription is largely dependent on two kappa B regulatory elements. In contrast, the HIV-2 enhancer has a single kappa B site and contains additional cis-acting sequences responsive to induction. One of these sites, previously termed CD3R, is a purine-rich site, also called PuB1, which is responsive to stimulation of the CD3 component of the T-cell receptor complex and binds Elf-1, a member of the ets proto-oncogene family. In this report, we examine the interaction of the PuB1 site with other sites in the HIV-2 enhancer. We demonstrate that the PuB1 site confers responsiveness to T-cell activators only in cooperation with additional enhancer elements. Induction of the HIV-2 enhancer is dependent on at least two other cis-acting regulatory elements in addition to PuB1 and kappa B. One of these elements is another purine-rich site (PuB2), which also binds recombinant Elf-1. An adjacent region, proximal to the PuB2 ets (pets) site, shows protection in DNase footprinting experiments with extracts from Jurkat T cells. Mutation of either the kappa B, PuB1, PuB2, or pets site significantly reduces the response of the HIV-2 enhancer to T-cell stimulation, an effect which is mediated at the RNA level. Therefore, activation of the HIV-2 enhancer is dependent on at least four cis-acting elements, only one of which is found in HIV-1, which act in synergy with one another. Despite their sequence similarity, the organization and function of the HIV-2 enhancer have diverged considerably from those of HIV-1.
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PMID:Activation of the human immunodeficiency virus type 2 enhancer is dependent on purine box and kappa B regulatory elements. 150 Dec 84

Human immunodeficiency virus type 1 (HIV-1) displays both interstrain and intrastrain genetic variability. Virus populations with extensive microheterogeneity have been defined as swarms or quasispecies. Many of the genomes within HIV-1 swarms appear to be defective in one or more genes required for viral replication. It is unclear to what extent defective viruses play a role in the process of HIV-1 infection or in the pathogenesis of AIDS. We have isolated two biologically active HIV-1 clones: LW 12.3, which contains defects in the vif and vpr genes, and MN ST.1, which has a defect in the vpu gene. LW 12.3 is unable to replicate in peripheral blood mononuclear cells (PBMC). The growth of MN-ST.1 in SupT1 cells is marked by a 3-week lag in extracellular virus production and by the presence of unusually abundant viral buds. We demonstrate here that coinfection of PBMC with these two partially defective HIV-1 clones extends the cellular host range of LW 12.3, significantly increases the replication rate of both viral genomes, and eliminates the delay in production observed with the vpu-defective MN ST.1. When the lesions in vpr and vif of LW 12.3 are repaired, the resultant virus grows normally in PBMC. This is also the case when only vif is repaired, indicating that complementation of LW 12.3 in PBMC by MN ST.1 is mediated by vif in trans. The reciprocal complementation results in a dramatic increase of HIV-1 virulence. This two-component model represents a simplified version of the in vivo situation and illustrates one way in which interaction of defective viruses could increase the spread of infection and progression of disease.
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PMID:Effect of reciprocal complementation of two defective human immunodeficiency virus type 1 (HIV-1) molecular clones on HIV-1 cell tropism and virulence. 150 Dec 90

Human immunodeficiency virus type 1 (HIV-1) proviral mutants that lack viral regulatory genes are unable to replicate unless rescued by complementation in trans. Structurally intact virus can be produced by infecting recombinant cell lines expressing the deficient genes. A HIV-1 mutant functionally defective in tat and rev (vIIIB delta Tat/Rev), which replicates only in a recombinant T-cell line expressing tat and rev (CEMTART), is described in this report. Infection of the CEMTART cell line with vIIIB delta Tat/Rev permits the complete HIV-1 life cycle, including cytopathology, decreased expression of CD4, and production of viral structural proteins, to be biologically contained. Culture supernatants from infected CEMTART contain virus that is able to replicate only in uninfected CEMTART. No reversion of vIIIB delta Tat/Rev to wild-type HIV-1 was observed as measured either by sequencing proviral vIIIB delta Tat/Rev or by detecting the ability of vIIIB delta Tat/Rev to replicate in CEM or activated CD4-bearing T lymphocytes. Defective HIV-1 mutants produced by trans complementation of essential genes permit infection and analysis of defined genotypes on cellular function and phenotype. Authentic HIV-1 structural proteins and infected cells can be prepared in mass, and agents that interfere with the HIV-1 life cycle can be studied on a large scale with minimum risk of exposing workers to virulent HIV-1.
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PMID:Derivation of a biologically contained replication system for human immunodeficiency virus type 1. 150 83

Human immunodeficiency virus type 1 (HIV-1) and HIV-2 are structurally related retroviruses which both cause AIDS in humans. Although both viruses establish latency in quiescent human-peripheral-blood T cells, the asymptomatic phase of HIV-2 infection may be more prolonged than that of HIV-1. The latent phases of both HIV-1 and HIV-2 infection have been shown to be disrupted by T-cell activation, a process that requires host cell transcription factors. In the case of HIV-1, the transcription factor NF-kappa B is sufficient for inducible transcriptional activation. In contrast, factors in addition to NF-kappa B are required to activate HIV-2 transcription in infected T cells. In this report, we demonstrate that a novel Ets-related transcription factor, Elf-1, binds specifically to two purine-rich motifs in the HIV-2 enhancer. Mutagenesis experiments demonstrated that these Elf-1 binding sites are required for induction of HIV-2 transcription following T-cell-receptor-mediated T-cell activation. Moreover, Elf-1 is the only factor present in activated T-cell nuclear extracts that binds to these sites in electrophoretic mobility shift assays. Thus, Elf-1 is a novel transcription factor that appears to be required for the T-cell-receptor-mediated trans activation of HIV-2 gene expression. These results may explain differences in the clinical spectra of diseases caused by HIV-1 and HIV-2 and may also have implications for the design of therapeutic approaches to HIV-2 infection.
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PMID:A novel Ets-related transcription factor, Elf-1, binds to human immunodeficiency virus type 2 regulatory elements that are required for inducible trans activation in T cells. 152 46

Human immunodeficiency virus type 1 (HIV-1) can establish a persistent and latent infection in CD4+ T lymphocytes (W. C. Greene, N. Engl. J. Med. 324:308-317, 1991; S. M. Schnittman, M. C. Psallidopoulos, H. C. Lane, L. Thompson, M. Baseler, F. Massari, C. H. Fox, N. P. Salzman, and A. S. Fauci, Science 245:305-308, 1989). Production of HIV-1 from latently infected cells requires host cell activation by T-cell mitogens (T. Folks, D. M. Powell, M. M. Lightfoote, S. Benn, M. A. Martin, and A. S. Fauci, Science 231:600-602, 1986; D. Zagury, J. Bernard, R. Leonard, R. Cheynier, M. Feldman, P. S. Sarin, and R. C. Gallo, Science 231:850-853, 1986). This activation is mediated by the host transcription factor NF-kappa B [G. Nabel and D. Baltimore, Nature (London) 326:711-717, 1987]. We report here that the HIV-1-encoded Nef protein inhibits the induction of NF-kappa B DNA-binding activity by T-cell mitogens. However, Nef does not affect the DNA-binding activity of other transcription factors implicated in HIV-1 regulation, including SP-1, USF, URS, and NF-AT. Additionally, Nef inhibits the induction of HIV-1- and interleukin 2-directed gene expression, and the effect on HIV-1 transcription depends on an intact NF-kappa B-binding site. These results indicate that defective recruitment of NF-kappa B may underlie Nef's negative transcriptional effects on the HIV-1 and interleukin 2 promoters. Further evidence suggests that Nef inhibits NF-kappa B induction by interfering with a signal derived from the T-cell receptor complex.
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PMID:Human immunodeficiency virus type 1 Nef protein inhibits NF-kappa B induction in human T cells. 152 59

Human immunodeficiency virus type 1 (HIV-1) infection causes progressive depletion of CD4/HIV-receptor-positive T helper lymphocytes, ultimately leading to AIDS. The major HIV reservoir and site of T-helper cell infection in lymphoid tissues, however, has remained poorly defined. The authors used in situ hybridization in combination with immunohistologic labeling techniques to identify the phenotype of HIV-infected cells in lymph nodes from patients at different stages of HIV-infection. The number of HIV-infected macrophages, widely considered the major site of HIV replication, was extremely low. There was no evidence for HIV-infection of endothelial and interdigitating reticulum cells. However, HIV RNA was found in small but consistent proportions of CD45RO-positive T cells and in the vast majority of follicular dendritic cells (FDC) in a pattern suggestive of active infection in addition to HIV-immunocomplex trapping on cell membranes. FDC may therefore be a major HIV reservoir and since T-helper cells travel through the FDC meshwork during their migration within lymphoreticular tissues, it appears likely that HIV-replicating T cells may infect FDC, which then infect new T cells, thus causing a gradual dissemination of the virus to all FDC and thereby a steadily increasing infection of T-helper/memory cells within germinal centers. This results in CD4+ T cell depletion, and ultimately, in immunodeficiency.
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PMID:Follicular dendritic cells are a major reservoir for human immunodeficiency virus type 1 in lymphoid tissues facilitating infection of CD4+ T-helper cells. 153 Sep 97

Human immunodeficiency virus type 1 (HIV-1) spends a significant part of its life cycle as latent provirus in nonactivated cells. It induction requires mitogen stimulation. TPA treatment induces HIV-1 transcription by protein kinase C (PKC)-mediated activation of the cellular transcription factor NF-kB. PKC activation induces the dissociation of NF-kB from its inhibitor protein (IkB). The liberated NF-kB then binds to its proviral recognition sequence in the HIV-1 long terminal repeat (LTR) sequence. This step, however, is not sufficient to augment transcription. We demonstrate that NF-kB-mediated HIV-1 LTR activation is regulated by an additional event that is not dependent on IkB. A further phosphorylation event is proposed, since this step could be blocked by an inhibitor of a phospholipase C (PLC) type reaction. This inhibitor precludes the formation of diacylglycerols, which are required for activation of PKC isoenzymes. As an alternative pathway that is not dependent on PLC reactions, high-level transcription from the HIV-1 LTR is shown to require binding of both NF-kB and TAT.
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PMID:Binding of NF-kB to the HIV-1 LTR is not sufficient to induce HIV-1 LTR activity. 154 Apr 10

Human immunodeficiency virus type 1 (HIV-1) integrase (IN) is the viral protein required for integration of the HIV-1 genome into host cell DNA. A series of clones expressing portions of IN as lambda cII fusion proteins has been constructed in an Escherichia coli expression system; a Southwestern procedure was used to examine binding of the expressed proteins to DNA oligonucleotides. Proteins expressed by clone pHIP106, encoding the entire IN protein but no other pol sequence, and pKNA101, which expresses an IN fusion protein containing 23 amino acids of HIV-1 reverse transcriptase at its amino terminus, exhibited similar levels of oligonucleotide binding. Little DNA sequence specificity was associated with binding activity and there was a preference for Mn2+ over Mg2+ and Ca2+. Interestingly, the protein expressed by an N-terminal clone containing nucleotides coding for IN amino acids 1-141 (including a conserved His-Cys box) was unable to bind oligonucleotide, whereas the protein expressed by a C-terminal clone containing nucleotides coding for amino acids 142-288 exhibited binding equivalent to that of full-length IN. The C-terminal protein was unreactive with a MAb to the lambda cII leader peptide and with an antipeptide serum directed against amino acids 141-158. These results are consistent with the previously reported internal initiation of IN protein synthesis in E. coli at met 154, and indicate that the C-terminal clone does not express IN amino acids 142-153. These amino acids represent part of a conserved region termed D(35)E, containing amino acids 116-152, which has been implicated in IN DNA binding.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Localization of DNA binding activity of HIV-1 integrase to the C-terminal half of the protein. 154 Apr 16

Human immunodeficiency virus type I (HIV-1) encodes a regulatory protein, Rev, which is required for cytoplasmic expression of incompletely spliced viral mRNA. Rev activity is mediated through specific binding to a cis-acting Rev responsive element (RRE) located within the env region of HIV-1. A monomer Rev binding site corresponding to 37 nucleotides of the RRE (IIB RNA) was studied by RNA footprinting, modification interference experiments and mutational analysis. Surprisingly, a 17 amino acid peptide, corresponding to the basic domain of Rev, binds specifically to this site at essentially identical nucleotides and probably induces additional base pairing. The Rev protein and related peptide interact primarily with two sets of nucleotides located at the junction of single and double stranded regions, and at an additional site located within a helix. This suggests that the domains of proteins responsible for specific RNA binding can be remarkably small and that the interaction between RNA and protein can probably induce structure in both constituents.
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PMID:Specific binding of a basic peptide from HIV-1 Rev. 154 76

Human immunodeficiency virus type 1 (HIV-1), the agent of AIDS, frequently infects the central nervous system. We inoculated adult human brain cultures with chimeric viruses containing parts of the env gene of a cloned primary isolate from brain tissue, HIV-1 JRFl, inserted into the cloned DNA of a T-cell-tropic strain. A chimeric virus containing the carboxy-terminal portion of HIV-1 JRFl env did not replicate in these brain tissue cultures, while a chimera expressing an env-encoded protein containing 158 amino acids of HIV-1 JRFl gp120, including the V3 loop, replicated well in brain microglial cells, as it does in blood macrophages. Infection of brain microglial cells with such a chimera was blocked by an antibody to the V3 loop of gp 120. Thus, env determinants in the region of gp120, outside the CD4-binding site and comprising the V3 loop, are critical for efficient viral binding to and/or entry into human brain microglia.
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PMID:Human immunodeficiency virus type 1 tropism for brain microglial cells is determined by a region of the env glycoprotein that also controls macrophage tropism. 154 85

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