Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0038362 (stomatitis)
8,852 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

IFN-gamma is a pleiotropic cytokine that plays a major role in anti-infectious immune responses. The physiologic effects of IFN-gamma are thought to be mediated by the binding of extracellular IFN-gamma to its receptor at the cell surface, thereby triggering an intracellular signaling cascade. In this work, we present evidence for a completely intracellular mechanism for IFN-gamma to induce virus protection. Murine fibroblasts were transfected with the cDNA for murine IFN-gamma, and although no detectable amounts of IFN-gamma were released, these cells were resistant to lysis by the cytolytic vesicular stomatitis virus. In contrast to exogenously added IFN-gamma, the effect of the endogenously produced IFN-gamma was not abolished by treatment with neutralizing Abs. To test whether intracellular signal transduction occurs, an IFN-gamma variant was constructed with the carboxyl-terminal endoplasmic reticulum retention signal Lys-Asp-Glu-Leu (KDEL). Transfection of fibroblasts with this mutant IFN-gamma, anchored in the endoplasmic reticulum, led to virus resistance, thus demonstrating that biologic effects of this protein do not necessarily require binding to the receptor at the cell surface. However, the antiviral state induced by transfection with IFN-gamma-KDEL was strictly dependent on the presence of the IFN-gammaR, since fibroblasts derived from IFN-gammaR-deficient mice (IFN-gammaR -/-) were not rendered virus resistant. The virus resistance induced was accompanied by enhanced expression of 2'-5' oligoadenylate synthetase and constitutive activation of STAT1 (signal transducers and activators of transcription). Hence, autocrinous effects of IFN-gamma in cells naturally producing this cytokine might occur even in the absence of its secretion. The mechanisms involved in signaling appear to be identical with or closely related to those occurring after binding of IFN-gamma to its receptor at the cell surface.
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PMID:Intracellular murine IFN-gamma mediates virus resistance, expression of oligoadenylate synthetase, and activation of STAT transcription factors. 890 36

The antiviral immunity of human placenta and amniotic membrane in an organ culture (OC) system was studied. Freshly isolated explants of most of the placentas at term and the amniotic membranes were found to be relatively resistant to herpes simplex virus type 1 (HSV-1), encephalomyocarditis virus (EMCV), and vesicular stomatitis virus (VSV) infections. After in vitro aging, however, the OC acquired the sensitivity to the viruses. In about 66%-90% of placentas, resistance of freshly isolated explants to the infection was observed. This indicates that the placentas displayed a constitutive immunity against the viruses. To study the role of endogenous cytokines in antiviral immunity, we added specific antibodies neutralizing IFN and TNF activities to VSV-infected OC and checked their influence on viral replication. Increases of 10-fold to 100-fold of VSV replication in the OC treated with anti-TNF-alpha, anti-IFN-alpha, anti-IFN-gamma or anti-IFN-beta sera were observed. The results indicate the importance of the endogenous cytokines in placental and amniotic membrane immunity. However, we did not observe a simple correlation between the spontaneous IFN and TNF production and the level of resistance against viruses. In view of the results, the participation of TNF and IFN in the constitutively expressed immunity of human placenta is of a more complex nature.
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PMID:Antiviral nonspecific immunity of human placenta at term: possible role of endogenous tumor necrosis factors and interferons. 893 70

Studies of hamster-human and mouse-human somatic fibroblast hybrids and transfected mouse fibroblasts have demonstrated that signaling through the human interferon-gamma receptor (hu-IFN-gammaR) requires the formation of a complex consisting of ligand (IFN-gamma), a ligand binding receptor chain (IFN-gammaR1), and a signal transducing receptor chain (IFN-gammaR2). To date, the ability of this receptor complex to transduce the full repertoire of biological signals has been difficult to assess due to the limited number of activities that IFN-gamma can exert on fibroblasts. The current report assesses the ability of hu-IFN-gammaR chains to transduce signals in the absence of background human gene products by expressing hu-IFN-gammaR2 in a transformed macrophage cell line (F10/96) derived from a hu-IFN-gammaR1 transgenic mouse. Our results indicate that F10/96 clones expressing both human receptor proteins bind hu-IFN-gamma with an affinity comparable to that of human cells. Binding of either human or mouse IFN-gamma to its respective receptor elicits classic IFN-gamma responses such as up-regulation of major histocompatibility complex antigens, enhanced expression of IRF-1, and increased production of NO2- radicals, interleukin-6, tumor necrosis factor-alpha, and granulocyte macrophage-colony stimulating factor. However, hu-IFN-gamma could not fully protect the clones from cytopathic effects of encephalomyocarditis virus and vesicular stomatitis virus while mo-IFN-gamma could. These results demonstrate that while co-expression of hu-IFN-gammaR1 and hu-IFN-gammaR2 is necessary and sufficient for most IFN-gamma-induced responses, it is not sufficient to confer a generalized antiviral state. These findings further suggest that additional species-specific accessory factor(s) are necessary for full signaling potential through the IFN-gamma receptor complex. The nature and potential role of such factors in IFN-gammaR signaling is discussed.
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PMID:Mouse macrophages carrying both subunits of the human interferon-gamma (IFN-gamma) receptor respond to human IFN-gamma but do not acquire full protection against viral cytopathic effect. 895 96

Several antibody-dependent mechanisms have been postulated to mediate neutralization of different animal viruses, including blocking of docking to receptors, induction of conformational changes in the virus coat, and Fc-dependent opsonization. We have studied the molecular requirements for antibody-mediated neutralization of vesicular stomatitis virus (VSV) in vitro and protection against lethal disease in vivo with a single-chain Fv fragment (scFv) and the corresponding bivalent miniantibody (scFv-dHLX) generated from a VSV-neutralizing monoclonal antibody. Both monovalent scFv and bivalent scFv-dHLX miniantibodies were able to neutralize VSV in vitro and to protect interferon-alphabeta receptor-deficient (IFN-alphabeta R-/-) mice against lethal disease after intravenous injection of 50 plaque-forming units (pfu) VSV pre-incubated with the scFv reagents. Similarly, severe-combined immunodeficient (SCID) mice infected with immune complexes of 10(8) pfu VSV and bivalent scFv-dHLX were protected against lethal disease; however, mice infected with immune complexes of 10(8) pfu VSV and monovalent scFv were not. Although repeated scFv-dHLX treatment reduced virus quantities in the blood, neither SCID nor IFN-alphabeta R-/- mice were protected against lethal disease after passive immunization and subsequent VSV infection. This was due to the short half-life of 17 min of scFv-dHLX in the circulation. These data demonstrate that neutralization of VSV and protection against lethal disease do not require Fc-mediated mechanisms and that cross-linking is not crucial for protection against physiologically relevant virus doses in vivo.
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PMID:Monovalent single-chain Fv fragments and bivalent miniantibodies bound to vesicular stomatitis virus protect against lethal infection. 897 71

In cells infected by wild-type (wt) vesicular stomatitis virus (VSV) Indiana, host transcription is severely inhibited. DNA cotransfection studies have implicated the VSV matrix (M) protein in this process (B. L. Black and D. S. Lyles, J. Virol. 66:4058-4064, 1992). The M protein inhibited transcription not only from viral promoters in plasmids but also from the chromosomally integrated human immunodeficiency virus type 1 (HIV-1) provirus promoter (S.-Y. Paik, A. C. Banerjea, G. G. Harmison, C.-J. Chen, and M. Schubert, J. Virol. 69:3529-3537, 1995). In this study, we investigated the effect of wt VSV M protein on expression of a reporter gene under control of a cellular promoter (beta-interferon [IFN-beta] promoter), using double transient transfections in BHK and COS-1 cells. The cellular IFN-beta promoter was as susceptible to the inhibitory effect of the M protein as the viral promoters used previously. Viral proteins N, P, and G had no significant effect on reporter gene expression. The M protein gene from VSV mutant T1026R1, which is defective in host transcription inhibition, was cloned and sequenced, and its effect on reporter gene expression was tested. The mutant M protein had a methionine-to-arginine change at position 51 in the protein sequence and did not inhibit transcription from either the IFN-beta promoter or viral promoters. This VSV mutant is a good inducer of IFN, as opposed to the wt virus, which suppresses IFN induction. These results show that the M protein inhibits transcription from cellular as well as viral promoters and that the M protein does not regulate the IFN promoter any differently from viral promoters. While the M protein may play a role in IFN gene regulation, other viral or cellular factors that provide specificity to the induction process must also be involved.
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PMID:The vesicular stomatitis virus matrix protein inhibits transcription from the human beta interferon promoter. 898 59

Because alpha-interferon (IFN-alpha) has a number of therapeutic applications in the treatment of various human cancers and diseases of viral origin, an understanding of how this family of proteins interacts with cells to induce their pleiotropic biologic activities is essential. Available data suggest that recombinant IFN-alphas from both natural and synthetic genes bind to a common cell surface receptor and induce antiviral activity in a variety of cell lines. IFN-alphas were found to differ significantly in their abilities to bind to cells; this difference varied with the types of IFN-alpha and cell type used. Consensus interferon (IFN-con1), a nonnaturally occurring synthetic IFN, and IFN-alpha2b competed about equally well for receptor binding sites on Daudi and CaKi cells and were followed by IFN-alpha8 in the ability to compete. Results of affinity cross-linking experiments indicated that all three IFN-alphas interacted similarly with the multichain IFN-alpha receptor. IFN-alpha7, however, competed poorly for binding sites on both cell lines. Each of the IFN-alphas tested displayed discrete biologic differences, which also varied with the assay system used. IFN-con1 and IFN-alpha2b displayed similar antiviral activities on CaKi cells using vesicular stomatitis virus; the viral activities of these IFNs were significantly greater than those of IFN-alpha7 or IFN-alpha8. Studies with murine transfectants demonstrated significant differences in the various IFNs to interact with the IFN-alpha receptor-1 chain of the type I IFN receptor. It is yet to be established, however, that these various in vitro distinctions result in differences in clinical benefit or toxicity between the various subtypes.
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PMID:Biologic activities of natural and synthetic type I interferons. 920 74

We previously reported that in vitro culture of human peripheral blood monocytes resulted in a time-dependent differentiation into macrophages and in an enhanced capacity for producing certain cytokines [i.e., tumor necrosis factor alpha, interleukin-6 (IL-6), and interferon-beta (IFN-beta)] in response to bacterial lipopolysaccharide (LPS). HIV-1 infection or gp120 treatment of monocyte/macrophages resulted in the induction of low levels of IFN-beta, which were very effective in restricting viral replication in 7-day cultured macrophages but not in freshly isolated cells. This enhanced response of macrophages was due to a higher sensitivity of these cells to the antiviral effect of IFN-beta. Consistent with this finding, 7-day cultured macrophages exhibited higher levels of type I IFN receptors than 1-day cultured monocytes. Treatment of monocyte/macrophages with gp120 also caused a marked increase in IL-10 secretion, regardless of the differentiation state. No IL-12 secretion was detected in monocyte/macrophage cultures treated with gp120 alone. However, consistent IL-12 secretion was found in 7-day cultured macrophages primed with IFN-beta and subsequently stimulated with gp120. Macrophages responded more efficiently than monocytes to the priming effect of IFN-beta for IL-12 production. This was consistent with a stronger antiviral response against vesicular stomatitis virus by these cells as well as with a higher expression of IFN-beta receptors. The finding that the acquisition of the macrophage phenotype is associated with an increased capacity to respond to environmental signals (such as type I and type II IFNs) underlines the importance of the differentiation process for the selection of a certain repertoire of responses that may allow these cells to have important functions in vivo.
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PMID:Induction of cytokines by HIV-1 and its gp120 protein in human peripheral blood monocyte/macrophages and modulation of cytokine response during differentiation. 922 92

Binding of interferon-alpha (IFN-alpha) to its receptor on hematopoietic cells activates the signal transducers and activators of transcription (Stat)- and insulin receptor substrate (IRS)-pathways, and regulates expression of antiproliferative and antiviral activities. However, it remains unknown whether these two pathways cooperate in the generation of IFN-alpha responses or function independently, and whether IRS-proteins transduce distinct downstream signals in response to IFNs or insulin/insulin-like growth factor (IGF)-1-mediated activation. Our data show that in response to IFN-alpha treatment, IRS-1 functions selectively as a docking protein for the SH2 domains of the p85 subunit of the PI 3'-kinase, but not the SH2 domain of Grb-2 which is engaged during insulin/IGF-1 signaling. In studies with THP-1 human myelomonocytic cells and 32D mouse myeloid cells, which are IRS-defective, we found that the IFN-alpha-regulated activation of Stat-1, Stat-2, and Stat-3 does not require the function of the IRS-system. Furthermore, THP-1 cells are responsive to the protective effect of IFN-alpha against vesicular stomatitis virus. Both 32D and THP-1 cells were resistant to the growth inhibitory effect of IFN-alpha, but this effect was not reversible by expression of IRS-1 or IRS-2 alone in 32D cells. Taken altogether these data show that: (1) The IRS-system transduces common and distinct signals in response to IFN-alpha or insulin/lGF-1 stimulation of hematopoietic cells. (2) The IRS-pathway operates separately from the Stat-pathway, and its function is not essential for the generation of the antiviral effect of IFN-alpha. (3) Neither the IRS- nor the Stat-pathways alone are sufficient to mediate the antiproliferative effects of IFN-alpha in hematopoietic cells, and additional signaling elements are required.
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PMID:The IRS-pathway operates distinctively from the Stat-pathway in hematopoietic cells and transduces common and distinct signals during engagement of the insulin or interferon-alpha receptors. 932 23

Murine polyoma virus (MPyV) is a small DNA virus that induces tumors in multiple tissues of infected host. In this investigation, we show that cell lines derived from wild type virus-induced breast tumors are resistant to the growth inhibitory action of interferon beta (IFN-beta). Furthermore, replication of heterologous viruses such as vesicular stomatitis virus and encephalomyocarditis virus was not inhibited by IFN-beta in these cells. This effect was due to inhibition of IFN-stimulated gene expression by viral T antigen. Activation of IFN-stimulated gene factor 3 was inhibited in cells derived from a tumor induced by wild-type MPyV but not those from a mutant that lacks the pRB binding site of the large T antigen. Similarly IFN-gamma-inducible gene expression was also inhibited in cells transformed by wild-type virus. The levels of components of IFN-stimulated gene factor 3 and signal transducing Janus tyrosine kinases were comparable between the cells transformed by the wild-type and mutant viruses. The viral large T antigen bound to Janus tyrosine kinase 1 and inactivated signaling through IFN receptors. Thus, these studies identify a mechanism of viral resistance to IFN action.
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PMID:The polyoma virus T antigen interferes with interferon-inducible gene expression. 944 89

The IFN-tau are type I IFN expressed by the early trophoblast of cattle and sheep but have activity on human cells and have been predicted to have potential therapeutic value. We have compared a series of mutant bovine and ovine IFN-tau with regard to their ability to inhibit the proliferation of Daudi cells and to evoke an antiviral (AV) response in WISH cells. Whereas Daudi cell growth was inhibited by Bo-IFN-tau1 in the 1 nM range, WISH cells were much less responsive, requiring exposure to 150 nM for protection against vesicular stomatitis virus. Replacement of lysines at positions 34, 107, 121, and 132 in Bo-IFN-tau, which are in regions predicted to interact with the type I receptor, led to modest but significant alterations in antiproliferative (AP) and AV activities. Replacement of the lysine residues at 160 and 164 had marked effects on biopotency, with K160 being particularly important. The different IFN-tau were able to activate the transcription factors ISGF3 and AAF (GAF) in Daudi cells at concentrations that correlated reasonably well with their AP potencies. Stat activation occurred in WISH cells in response to approximately 2 nM Bo-IFN-tau1, but ISGF3 formation could not be demonstrated even at the 100-fold higher IFN-tau concentrations that gave viral protection. Pretreatment of WISH cells with Hu-IFN-gamma allowed ISGF3 formation to be observed in response to subsequent treatment with Bo-IFN-tau1 or type I human IFN but did not increase the AV responsiveness of the cells. No evidence was found that IFN-tau elicit uniquely different responses on human cells than type I Hu-IFN, except they are much less potent. The data emphasize the importance of a region near the carboxyl terminus for the functional activity of type I IFN, and that although ISFG3 formation may be necessary, its mere presence is not sufficient to provide an antiviral response.
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PMID:The antiproliferative and antiviral activities of IFN-tau variants in human cells. 945 65


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