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)

Growth hormone (somatotropin) is a potent anabolic protein currently being evaluated clinically in cachexia associated with malignancy and human immunodeficiency virus (HIV) disease. Growth hormone can also lead to enhancement of lectin-mediated cellular proliferation, macrophage activation, and cytokine induction, events linked to induction of latent HIV in vitro. We thus explored the ability of recombinant human growth hormone (rhGH) to affect viral replication in acute and chronic HIV infection, and to alter transcription at the HIV-1 long terminal repeat (LTR). A clone of promonocytic cells, chronically infected with HIV-1 and susceptible to viral induction by a variety of cytokines and protein kinase C activators, was unperturbed by rhGH used over broad concentrations (10 to 500 ng/mL) and time intervals. This unresponsiveness paralleled the lack of effect of rhGH on HIV-associated trans-activation in both monocytic and CD4+ T-cell lines. In contrast, rhGH enhanced viral replication in acutely infected peripheral blood mononuclear cells (PBMC) by twofold to 20-fold, albeit having no adverse effect on the antiviral efficacy of zidovudine (AZT). Augmentation of HIV growth correlated with stimulation of cellular DNA synthetic responses and an increase in tumor necrosis factor-alpha (TNF-alpha) secretion. These data are discussed in the context of ongoing clinical trials of rhGH in HIV-seropositive individuals with wasting syndromes.
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PMID:Effect of recombinant human growth hormone on acute and chronic human immunodeficiency virus infection in vitro. 173 91

In human immunodeficiency virus-1 (HIV-1)-infected cell cultures, cell-to-cell fusion and the formation of multinucleated giant cells (syncytia) are induced as a consequence of interactions between the viral envelope glycoprotein on infected cells and cell surface CD4 molecules on uninfected cells. Although activated CD4+ T cells rapidly form syncytia when cultured with HIV-1 envelope glycoprotein expressing (env+) cells, freshly isolated, unstimulated CD4+ T cells do so more slowly. In these studies, we sought to explore the role of T cell activation in rendering CD4+ T cells susceptible to HIV-1-mediated syncytia formation. Our results indicate that within 2 h of exposure to immunologic stimuli, CD4+ T cells acquire the ability to form syncytia with HIV-1 env+ cells. Both cholera toxin, an inhibitor of protein kinase C (PKC) through its effects on inositol triphosphate and diacylglycerol production, and 1-(5-isoquinolinesulfonyl)-2-methylpiperazine dihydrochloride, a noncompetitive inhibitor (with respect to ATP) of PKC, prevented unstimulated but not previously stimulated CD4+ T cells from forming syncytia with HIV-1 env+ cells. 1-Oleoyl-2-acetyl glycerol, an analog of the PKC activator, diacylglycerol, enhanced syncytia formation whereas ionomycin, a calcium ionophore, had no effect. These results suggest that activation of PKC is essential for previously unstimulated CD4+ T cells to become fusogenic.
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PMID:Early activation events render T cells susceptible to HIV-1-induced syncytia formation. Role of protein kinase C. 182 86

The transcription factor NF-kappa B has been implicated in the mitogen-induced expression of several genes that are critical for the immunologic function of T cells such as those encoding IL-2 and the IL-2R alpha chain (IL-2R alpha). We show here that NF-kappa B is induced in T cells activated by Ag, anti-CD3 antibody, or allogeneic stimulation. The induction of NF-kappa B via the TCR was dependent on protein kinase C. IL-2, which also activates IL-2R alpha expression and proliferation in T cells, was not able to induce NF-kappa B. TCR-mediated induction of NF-kappa B suggests a central role for this factor in activated T cells and also provides a mechanism for activation of latent HIV provirus during the normal immune response.
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PMID:Physiologic activation of T cells via the T cell receptor induces NF-kappa B. 183 61

A synthetic peptide containing env amino acid (aa) sequence 581 to 597 of the transmembrane protein gp41 of human immunodeficiency virus type 1 (HIV-1) was tested for its effect on protein kinase C (PKC) and cytoplasmic free Ca2+ [( Ca2+]i) influx-dependent immune functions. We have previously shown that this peptide inhibits PKC-mediated phosphorylation and T-cell receptor-mediated [Ca2+]i influx as well as lymphoproliferation. In this study we demonstrate that the HIV-1 gp41 peptide aa581-597 inhibits lymphoproliferation stimulated via the distinct T-cell-activation molecules CD3, CD2, and CD28, as well as direct stimulation mediated by phorbol ester combined with ionomycin. Further, aa581-597 inhibits both PKC-dependent interleukin 2 (IL 2) production and the [Ca2+]i influx-dependent but PKC-independent induction of IL 2 receptor expression. The HIV-1 gp41 peptide also induces dramatic morphologic changes in lymphocytes, characterized by cytoplasmic ballooning and the acquisition of adherence to plastic, and these changes are dependent on both the length and the temperature of exposure. The results of this study suggest that the HIV-1 gp41 sequence aa581-597 acts at multiple sites to inhibit both PKC activity and [Ca2+]i influx, resulting in the abrogation of several distinct immune functions that are critical for an intact immune response and are defective in HIV-1-infected individuals.
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PMID:A synthetic peptide with sequence identity to the transmembrane protein GP41 of HIV-1 inhibits distinct lymphocyte activation pathways dependent on protein kinase C and intracellular calcium influx. 183 84

We investigated mechanisms by which the soluble native envelope glycoprotein gp120 of the human immunodeficiency virus (HIV-1) suppresses antigen-driven T cell responses. For this study, exogenous interleukin-2 (IL-2)-independent, antigen-specific, CD4 positive, human T-cell clones were developed by cyclic restimulation with soluble tetanus toxoid antigen. In the presence of soluble antigen and antigen-presenting cells (APC), T-cell clones proliferated and secreted IL-2. Purified gp120 suppressed the proliferative responses of the T-cell clones with concomitant suppression of IL-2 secretion; proliferative responses of CD8+ T cells preincubated with gp120 were not inhibited. A short pulse of 20 minutes with gp120 was sufficient to inhibit the proliferative response of the T-cell clones. Anti-CD3 monoclonal antibody (MoAb)-driven proliferation of the T-cell clones was also suppressed by gp120, but responses elicited by mitogens, phorbol myristate acetate (PMA) plus calcium ionophore, ionomycin, anti-CD2 MoAbs, and a combination of anti-CD3 plus anti-CD28 MoAb driven responses remained unaffected. Investigation of signal transduction events showed that antigen-driven early activation signals via translocation of protein kinase C (PKC), increase in intracellular inositol phosphates, and increase in intracellular calcium were suppressed in gp120 pretreated, tetanus toxoid antigen-stimulated T-cell clones. One mechanism of immune suppression by gp120 may involve interference with the initiation of signal transduction through the T-cell receptor complex.
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PMID:Inhibition of functional properties of tetanus antigen-specific T-cell clones by envelope glycoprotein GP120 of human immunodeficiency virus. 196 13

Cocultivation of MOLT-4 and MOLT-4/HIVHTLV-IIIB cells with more than 0.01 ng/ml of 12-O-tetradecanoylphorbol-13-acetate (TPA) for 20 hr strikingly inhibited HIV-induced syncytia formation resulting from cell to cell infection. Interestingly, the production of HIV-specific p24 antigen in the culture fluid was significantly enhanced by TPA. TPA down-modulated the expression of CD4. CD4 is essential for syncytia formation through interaction with viral envelope protein gp120 on the surface of MOLT-4 cells. The effects of TPA on syncytia formation and on CD4 expression were specifically interfered with by nontoxic doses of blockers of protein kinase C (PKC) such as staurosporine and H7. These data suggest that (1) TPA inhibits HIV-induced syncytia formation through down-modulation of CD4 molecules on the surface of MOLT-4 cells and (2) PKC may play an important role in cell to cell as well as in cell-free infection of HIV.
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PMID:The phorbol ester TPA strongly inhibits HIV-1-induced syncytia formation but enhances virus production: possible involvement of protein kinase C pathway. 197 Apr 44

The inability of CD4+ T cells of HIV-1-infected patients to mount an effective immune response is widely believed to explain the increased susceptibility of these patients to opportunistic infections. Although the full explanation for T-cell dysfunction in HIV-1 infection is not yet understood, at least two fundamentally distinct mechanisms are thought to contribute: depletion of CD4+ T cells and qualitative CD4+ T-cell dysfunction independent of T-cell depletion. Many HIV-1-infected patients manifest reduced T-cell responses to recall antigens prior to measurable CD4+ T-cell depletion, and among the proposed explanations for this phenomenon are gp120-mediated interference with T-cell activation by way of inhibition of CD4-class II major histocompatibility complex (MHC) determinant interactions, gp41-mediated inhibition of protein kinase C-dependent T-cell activation, formation of gp41 cross-reactive antibodies that react with MHC class II determinants, transforming growth factor-beta (TGF-beta)-mediated immunosuppression, and decreased functions of antigen-presenting and antigen-processing cells (macrophages and bone marrow-derived dendritic cells). Despite their detection in most HIV-1-infected patients, these qualitative T-cell defects do not herald the onset of life-threatening disease. The appearance of severe clinical manifestations of AIDS, particularly opportunistic infections, occurs primarily in patients whose CD4+ T-cell count is significantly reduced. Depletion of CD4+ T cells may be a direct consequence of HIV-1 infection that occurs as a result of syncytia formation, autoantibody-mediated cytolysis, gp120-specific antibody-dependent cytolysis, and/or gp120-specific T-cell mediated cytolysis. The thymus is severely affected in patients with late-stage disease, and although there is no proof that the failure of the thymus to regenerate new T cells contributes to T-cell depletion in patients with AIDS, the likelihood seems high that this is the case. Indeed, if prolonged suppression of HIV-1 replication can be achieved with newer anti-HIV drugs or combinations of drugs, reconstitution of a normal immune system seems likely, provided that the capacity to regenerate T cells has not been irrevocably lost as a consequence of viral infection. In summary, available evidence indicates that HIV-1 uses a complex array of mechanisms to disrupt T-cell mediated immunity, but because most of these involve a direct role for HIV-1 proteins, such mechanisms are likely to be reversible if suppression of HIV-1 replication can be achieved.
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PMID:Impaired immunity in AIDS. The mechanisms responsible and their potential reversal by antiviral therapy. 198 24

Nuclear factor kappa B (NF-kappa B) is a ubiquitous transcription factor that affects expression of many genes, including immunoglobulin kappa (kappa), the interleukin-2 receptor alpha chain, and two genes in HIV-1. NF-kappa B can be activated by a number of stimuli, including pharmacological stimulation of protein kinase C by phorbol 12-myristate 13-acetate (PMA) and treatment in vitro with either protein kinase C or protein kinase A. This has lead to the proposal that these kinases are key enzymes in the physiological activation of NF-kappa B as well. We have used a murine B cell line, 70Z/3, and T cell line, EL-4 6.1 C10, to study the activation of NF-kappa B by two physiological activators, interleukin-1 alpha (IL-1) and lipopolysaccharide (LPS). There are four reasons to propose that these agents activate pathways that do not include protein kinase C as a major component in these cell lines. First, the protein kinase C inhibitor 1-(5-isoquinolinesulfonyl)-2-methylpiperazine (H-7) strongly inhibited PMA-induced activation of NF-kappa B in 70Z/3 cells but had no effect on NF-kappa B activated by IL-1 or LPS. Second, depletion of protein kinase C by prolonged growth of 70Z/3 in PMA abrogated the capacity of the cells to activate NF-kappa B in response to further PMA treatment. However, these same cells activated NF-kappa B normally after either IL-1 or LPS treatment. Third, IL-1 effectively activated NF-kappa B in EL-4 6.1 C10 cells, but PMA did not. Fourth, interferon-gamma is a potent activator of protein kinase C in 70Z/3 cells, but is completely inactive in the mobilization of NF-kappa B. These results suggest that the physiological inducers IL-1 and LPS activate NF-kappa B by pathways independent of protein kinase C in both 70Z/3 and EL-4 6.1 C10 cells.
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PMID:Evidence that interleukin-1 and phorbol esters activate NF-kappa B by different pathways: role of protein kinase C. 205 61

Receptor-mediated endocytosis is a well recognized process by which many cells internalize and intracellularly process important biological molecules including viruses. The present hypothesis, addressing receptor-mediated cellular entry of viruses including HIV, describes a perspective of further basic studies seen through the current knowledge about pharmacological control of various steps of receptor-mediated endocytosis of different ligands and viruses as well. It proposes a list of more than 20 chemicals, targeted at inhibition of viral internalization and viral release into the cytoplasm, via their action(s) on transglutaminase, calmodulin, protein kinase C, and intraendosomal pH. It is cautiously suggested that a proper study of these chemicals may reveal some therapeutic values of their own in some viral diseases including AIDS.
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PMID:Inhibition of receptor-mediated cellular entry of viruses including HIV: a perspective on further researches on chemotherapy in viral diseases including AIDS. 209 Sep 29

We have previously shown that a synthetic peptide containing env residues 581-597 from HIV-1 inhibits lymphoproliferation of human PBMC. We have investigated the molecular mechanism(s) by which this HIV-1-derived peptide inhibits CD3-mediated signal transduction. We show that the peptide containing residues 581-597 from the HIV-1 transmembrane protein gp41 specifically inhibited the intracellular Ca2+ influx in Jurkat cells stimulated by the mAb OKT3 whereas it had no effect on the production of inositol triphosphate. In addition, the peptide inhibited protein kinase C (pkC)-mediated phosphorylation of the CD3 gamma-chain in intact cells and directly inhibited partially purified pkC. The inhibition was noncompetitive with respect to the substrates histone and ATP and independent of the regulatory domain of the enzyme. Furthermore, the peptide required internalization for inhibitory activity because no inhibition of lymphoproliferation was observed when cells were treated with peptide at 4 degrees C. Based on these results obtained with the peptide aa581-597, we postulate that the transmembrane protein gp41 of HIV-1 may inhibit pkC activity and thus block pkC-dependent immune function contributing to the immunosuppression of HIV-1-infected individuals.
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PMID:Inhibition of protein kinase C and anti-CD3-induced Ca2+ influx in Jurkat T cells by a synthetic peptide with sequence identity to HIV-1 gp41. 213 76

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