UMLS:C0019693 - FACTA Search

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

Previous studies have shown that expression of HIV-1 provirus was enhanced in cells co-infected with the herpes virus and that HSV-1-mediated induction of the HIV-1 provirus expression involved both NF-kappa B-dependent and NF-kappa B-independent mechanisms. Nuclear NF-kappa B complexes could be detected approximately 8 hr after HSV-1 infection. Using NF-kappa B-specific antibodies in a mobility shift assay, we have found that HSV-1 increases binding of p50, p65, and c-rel to the HIV-1 NF-kappa B probe in both Jurkat T cells and NIH/3T3 cells HSV-1 infection also increases transiently the levels of p50 mRNA but an increase in the level of p65 mRNA was not detected. Furthermore, HSV-1 infection induces a rapid degradation of the I kappa B alpha protein. Transfection of HIV-1 LTR CAT into cell lines which overexpressed individual NF-kappa B proteins showed the highest constitutive expression of CAT activity in cells overexpressing p65. Infection with HSV-1 further enhanced the expression of HIV-1 LTR CAT in cell lines producing p52, p100, and c-rel. In contrast, HSV-1 did not significantly enhance the expression of HIV-1 LTR CAT in cell lines overexpressing p105 and 1 kappa B gamma. In the transient expression assay the p65/c-rel heterodimer was the most effective inducer of the HIV-I LTR expression. Thus it appears that p65 plays a limited role in the NF-kappa B-dependent activation of the HIV-1 LTR following HSV-1 infection and that the stimulation is mediated by the p50/p65 and p65/c-rel heterodimers. Thus the magnitude of HIV-1 provirus induction depends on the relative levels of NF-kappa B subunits present in the infected cells.
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PMID:Differential regulation of the HIV-1 LTR by specific NF-kappa B subunits in HSV-1-infected cells. 886 16

Inorganic lead (Pb) is a ubiquitous environmental contaminant that produces a variety of effects on humoral and cell mediated immune responses. The underlying molecular mechanism for Pb's complex effects on the immune system remain obscure. Many of Pb's effects on the immune system could be explained through activation of the transcription factor, NF-kappa B. NF-kappa B is critical for T lymphocyte function and is a strong inducer of HIV-LTR activation. We demonstrate that Pb at physiologically relevant concentrations activates NF-kappa B in primary human CD4+ T lymphocytes. Pb-induced activation of NF-kappa B is blocked by antibodies for p65 and p50 subunits but not cRel, indicating that the p65:p50 heterodimer (NF-kappa B) is involved. Functional activation of gene expression by Pb was confirmed using primary CD4+ T cells transfected with an NF-kappa B dependent reporter gene construct. Pb did not activate NF-kappa B in 4 different T cell lines, suggesting that lymphoid cell lines may not be reliable surrogates for the study of transcriptional activation in human T cells. These data suggest that NF-kappa B may be an important molecular mediator of Pb-induced immunotoxicity.
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PMID:Inorganic lead activates NF-kappa B in primary human CD4+ T lymphocytes. 887 24

In vitro, human B lymphocytes undergo long-term proliferation when activated through CD40, a protein expressed on their cell surface. The nature of CD40-dependent signals in proliferating fresh human Epstein-Barr virus-negative B lymphocytes is currently unknown. In this study, a CD40-dependent B cell culture system was used to examine the role of different signal transduction elements. Protein kinase C (PKC) depletion generated by a long-term phorbol 12 myristate 13-acetate treatment had weak effects on proliferation. Rather, tyrosine phosphorylation was shown to be directly involved in mediating CD40-dependent signals. The use of the protein tyrosine kinase (PTK)-specific inhibitor herbimycin A dramatically decreased cellular proliferation without altering the activity of the human immunodeficiency virus-1 long terminal repeat (HIV-1 LTR), a promoter largely dependent on the binding of nuclear factor kappa B (NF- kappa B). In contrast, the cAMP-dependent protein kinase specific inhibitor H-89 totally inhibited HIV-1 LTR activity at a concentration as low as 100 nM without affecting cellular proliferation. Electrophoretic mobility shift assay (EMSA) and supershift assay using an NF-kappa B binding sequence from the kappa light chain as a probe, revealed that both p65 (RelA) and c-Rel were present in CD40-stimulated B cells. While PKC depletion did not alter the NF-kappa B level, treatment of B lymphocytes with H-89 or herbimycin A provoked a decrease in the NF-kappa B level. These observations establish the importance of different signal transducing pathways leading to CD40 activation of B lymphocytes.
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PMID:Tyrosine kinase and cAMP-dependent protein kinase activities in CD40-activated human B lymphocytes. 889 48

We show that the binding of Rel p50 and p52 homodimers at sites within the transcriptional initiation region of HIV-1 provides for their ability to interact with other proteins that bind the initiator. The binding of one such protein, the initiator protein TFII-I, to the initiation region of HIV-1 is augmented in the presence of Rel p50 and Rel p52 homodimers. Consistent with this, in vitro Rel homodimers potentiate HIV-1 transcription in a manner dependent upon TFII-I. The findings suggest that Rel dimers may regulate HIV-1 transcription in two ways. First, through binding at the kappa B enhancer sites at (-104 to -80), NF-kappa B p50:p65 participates in classical transcriptional activation. Second, Rel dimers such as p50 or p52 might bind at initiator sequences to regulate the de novo binding of components of certain preinitiation complexes. These findings, and the existence of Rel binding sites at the initiators of other genes, suggest roles for Rel proteins in early events determining transcriptional control.
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PMID:NF-kappa B homodimer binding within the HIV-1 initiator region and interactions with TFII-I. 890 89

CD40-stimulated human B lymphocytes are highly permissive to a productive infection by the human immunodeficiency virus type 1. In these cells, nuclear factors involved in activation of the HIV-1 LTR, which contains the transcriptional control elements of the virus, are unknown. Transient expression assays with plasmids containing deleted parts of the LTR region linked to a reporter gene showed that the NF-kappaB binding site was essential for HIV-1 LTR activity in CD40-stimulated B lymphocytes. In addition, electrophoretic mobility shift and supershift assays revealed that important NF-kappaB binding activity composed of at least p50, p65, and c-Rel NF-kappaB subunits was present in nuclei of CD40-stimulated B cells. These results confirm at a molecular level the ability of HIV-1 to replicate in B cells and that this activity is strongly associated with NF-kappaB.
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PMID:HIV-1 LTR activity in human CD40-activated B lymphocytes is dependent on NF-kappaB. 895

Human immunodeficiency virus type 1 (HIV-1) replicates more efficiently in vitro in differentiated macrophages than in freshly isolated monocytes. We investigated whether this may be partly explained by changes in expression of NF-kappaB with monocyte differentiation. We demonstrated that constitutive expression of NF-kappaB in primary human monocytes changed significantly with differentiation in vitro to monocyte-derived macrophages (MDMs) and differentiation in vivo to alveolar macrophages (AMs). Freshly isolated monocytes constitutively expressed high levels of transcriptionally inactive p50 homodimer which decreased with time in culture in favor of the transcriptionally active p50/p65 and p50/RelB heterodimers. As in MDMs, AMs constitutively expressed p50/p65 and p50/RelB although at lower levels. HIV infection of fresh monocytes failed to induce p50/p65 as seen in MDMs. The replacement of p50 homodimers with transcriptionally active heterodimers following time in culture may partially explain the progressive increase in susceptibility of monocytes to HIV infection during in vitro culture. The change in NF-kappaB components with monocyte differentiation in vivo may also explain the different transcriptional activities of these cell populations in HIV-infected individuals.
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PMID:Constitutive expression of p50 homodimer in freshly isolated human monocytes decreases with in vitro and in vivo differentiation: a possible mechanism influencing human immunodeficiency virus replication in monocytes and mature macrophages. 903 44

The transcriptional regulatory elements of many inducible T-cell genes contain adjacent or overlapping binding sites for the Ets and NF-kappaB/NFAT families of transcription factors. Similar arrays of functionally important NF-kappaB/NFAT and Ets binding sites are present in the transcriptional enhancers of human immunodeficiency viruses types 1 and 2 (HIV-1 and HIV-2), suggesting that this pattern of nuclear protein binding sites reflects an evolutionarily conserved mechanism for regulating inducible T-cell gene expression that has been co-opted during HIV evolution. Despite these findings, the molecular mechanisms by which Ets and NF-kappaB/NFAT proteins cooperatively regulate inducible T-cell gene expression remained unknown. In the studies described in this report, we demonstrated a physical interaction between multiple Ets and NF-kappaB/NFAT proteins both in vitro and in activated normal human T cells. This interaction is mediated by the Ets domain of Ets proteins and the C-terminal region of the Rel homology domains of NF-kappaB/NFAT proteins. In addition, the Ets-NF-kappaB/NFAT interaction requires the presence of DNA binding sites for both proteins, as it is abolished by the DNA intercalating agents propidium iodide and ethidium bromide and enhanced by the presence of synthetic oligonucleotides containing binding sites for Ets and NF-kappaB proteins. A dominant-negative mutant of NF-kappaB p50 that binds DNA but fails to interact with Ets proteins inhibits the synergistic activation of the HIV-1 and HIV-2 enhancers by NF-kappaB (p50 + p65) and Ets-1, suggesting that physical interaction between Ets and NF-kappaB proteins is required for the transcriptional activity of the HIV-1 and HIV-2 enhancers. Taken together, these findings suggest that evolutionarily conserved physical interactions between Ets and NF-kappaB/NFAT proteins are important in regulating the inducible expression of T-cell genes and viruses. These interactions represent a potential target for the development of novel immunosuppressive and antiviral therapies.
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PMID:Physical interactions between Ets and NF-kappaB/NFAT proteins play an important role in their cooperative activation of the human immunodeficiency virus enhancer in T cells. 909 28

Cell-to-cell contact between peripheral blood lymphocytes and transfected human colonic carcinoma cell line HT29 activates transcription of the long terminal repeats (LTR) of human immunodeficiency virus. HIV-1 LTR transcription is controlled by a complex array of virus-encoded and cellular proteins. Using various constructs expressing a lacZ reporter gene under the control of the intact or three deleted forms of HIV-1 LTR, we obtained evidence that the kappaB regulatory elements located in the U3 region are involved in cell-to-cell activation of HIV-1 LTR. Cell-to-cell contact activates in vitro binding of the nuclear factor kappaB (NF-kappaB) p50/p65 heterodimer to an HIV-1 kappaB oligonucleotide. Cell-to-cell contact activation of NF-kappaB was only partially inhibited by 100 microM pyrrolidine dithiocarbamate and was not correlated with a significant decrease of cellular inhibitor kappaB alpha. NF-kappaB nuclear activation was not detectable before 1 h after cell contact and was dependent on protein synthesis.
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PMID:Cell-to-cell contact activates the long terminal repeat of human immunodeficiency virus 1 through its kappaB motif. 911 25

The complex network of cytokines that are involved in inflammatory and immunoregulatory responses plays a critical role in the pathogenesis of HIV infection. RANTES (regulated upon activation, normal T cell expressed and secreted) is a cytokine that belongs to the beta-chemokine family; it is chemoattractant for CD4+/CD45RO T cells, it is produced by various cell types including CD8+ and CD4+ T cells as well as monocytes/macrophages, and has recently been shown to suppress replication of macrophage-tropic strains of HIV in CD4+ T cells. To investigate the molecular mechanisms of RANTES expression, the RANTES promoter region was analyzed by transient expression and gel-mobility shift assays. We demonstrate that: 1) RANTES promoter activity is up-regulated by PMA plus ionomycin, coexpression of the p65 subunit of nuclear factor (NF)-kappa B, the proinflammatory cytokines TNF-alpha and IL-1 beta, and the CD28 costimulatory pathway; 2) the RANTES promoter region contains four NF-kappa B binding sites at positions -30, -44, -213, and -579 relative to the transcription start site; 3) one site (-213) is an NF-AT (nuclear factor of activated T cells) binding site that also has weak affinity to NF-kappa B, and the most distal site (-579) also serves as a CD28-responsive element; and 4) mutation on any of those NF-kappa B sites or coexpression of I kappa B alpha (cytoplasmic inhibitor of NF-kappa B) markedly reduced the promoter activity. Thus, NF-kappa B, a potent transcriptional activator of HIV expression, is also involved in the expression of RANTES, a chemokine that blocks infection by macrophage-tropic strains of HIV.
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PMID:Nuclear factor-kappa B potently up-regulates the promoter activity of RANTES, a chemokine that blocks HIV infection. 912 Mar 10

Replication of human immunodeficiency virus type 1 (HIV-1) is increased by different cytokines and T cell activators, also known to modulate tyrosine phosphorylation levels. A novel class of protein tyrosine phosphatase (PTP) inhibitors, peroxovanadium (pV) compounds, were tested for a putative effect on HIV-1 long terminal repeat (LTR) activity. We found that these PTP inhibitors markedly enhanced HIV-1 LTR activity in 1G5 cells, a stably transfected cell line that harbors an HIV-1 LTR-driven luciferase construct. A direct correlation between the extent of tyrosine phosphorylation and the level of HIV-1 LTR inducibility was seen after treatment with three different pV compounds. Transient transfection experiments were carried out in several T cell lines, and after addition of pV, a marked increase in HIV-1 LTR activity was measured. Monocytoid cells were tested using U937-derived cell lines and were also found to be sensitive to the pV-mediated potentiating effect on HIV-1 LTR activity. A significant reduction of the pV-mediated increase in HIV-1 LTR activity was seen in cells transiently transfected with an HIV-1 LTR-driven luciferase construct bearing a mutation in both NF-kappaB binding sites although detectable levels of induction remained. Electrophoretic mobility shift assays allowed the identification of the nuclear translocation of the NF-kappaB p50.p65 heterodimer complex induced by pV compounds. A dominant negative version of the repressor IkappaBalpha mutated on serines 32 and 36 impeded pV-induced NF-kappaB-dependent luciferase activity. Western blot analysis showed a clear diminution in the protein level of IkappaBalpha starting 30 min after pV treatment of Jurkat E6.1 cells which is indicative of its degradation. On the other hand, no increase in tyrosine phosphorylation was observed on IkappaBalpha itself. Finally, we tested the PTP inhibitors on four cell lines latently infected with HIV-1 and showed a consistent pV-mediated increase in virion production. Thus, our studies suggest that pV-mediated activation of HIV-1 LTR activity is controlled by the nuclear translocation of the NF-kappaB transcription factor, which is mediated by IkappaBalpha serine phosphorylation and degradation, but also by a still undefined NF-kappaB-independent pathway.
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PMID:Activation of HIV-1 long terminal repeat transcription and virus replication via NF-kappaB-dependent and -independent pathways by potent phosphotyrosine phosphatase inhibitors, the peroxovanadium compounds. 914 3

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