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

The human protein p78 is induced and accumulated in cells treated with type I interferon or with some viruses. It is the human homolog of the mouse Mx protein involved in resistance to influenza virus. A full-length cDNA clone encoding the human p78 protein was cloned and sequenced. It contained an open reading frame of 662 amino acids, corresponding to a polypeptide with a predicted molecular weight of 75,500, in good agreement with the Mr of 78,000 determined on sodium dodecyl sulfate gels for the purified natural p78 protein. The cloned gene was expressed in vitro and corresponded in size, pI, antigenic determinant(s), and NH2 terminus sequence to the natural p78 protein. A second cDNA was cloned which encoded a 633-amino-acid protein sharing 63% homology with human p78. This p78-related protein was translated in reticulocyte lysates where it shared an antigenic determinant(s) with p78. A putative 5' regulatory region of 83 base pairs contained within the gene promoter region upstream of the presumed p78 mRNA cap site conferred human alpha interferon (IFN-alpha) inducibility to the cat reporter gene. The p78 protein accumulated to high levels in cells treated with IFN-alpha. In contrast, the p78-related protein was not expressed at detectable levels. The rate of decay of p78 levels in diploid cells after a 24-h treatment with IFN-alpha was much slower than the rate of decay of the antiviral state against influenza A virus and vesicular stomatitis virus, suggesting that the p78 protein is probably not involved in an antiviral mechanism. Furthermore, we showed that these proteins, as well as the homologous mouse Mx protein, possess three consensus elements in proper spacing, characteristic of GTP-binding proteins.
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PMID:Cloning and sequence analyses of cDNAs for interferon- and virus-induced human Mx proteins reveal that they contain putative guanine nucleotide-binding sites: functional study of the corresponding gene promoter. 215 2

Treatment of human fibroblast FS-4 cultures with human type II interferon preparations induced the synthesis of at least four proteins that were similar in size to four of the five proteins induced by type I interferons (Mr 120,000, 88,000, 67,000, and 56,000). However, the Mr 67,000 and 56,000 proteins were induced more strongly by type II than by type I interferon, and a counterpart of a Mr 80,000 protein induced by type I interferons was not noticeably induced by type II interferon preparations. We therefore compared type I and type II interferons for relative antiviral activities against different viruses (vesicular stomatitis, encephalomyocarditis, and vaccinia viruses and reovirus) and for cell growth-inhibitory activities on various cell types. The replication of vesicular stomatitis and encephalomyocarditis viruses was inhibited more strongly by type I interferon, whereas reovirus and vaccinia virus showed greater sensitivity to type II interferon preparations. This indicates that viruses may differ in their sensitivity to human type I and type II interferons and that the antiviral mechanisms induced by type I and type II interferons may have significant differences. The type I and type II interferons may have significant differences. The type I and type II interferons may also differ in their efficacies as antiproliferative agents. Type II interferon preparations at 2.5 units/ml inhibited the incorporatin of [3H]thymidine to a greater extent than did type I interferon at 400 units/ml. (For both type I and type II interferons, the unit of interferon activity was defined as the concentration that decreased the yield of vesicular stomatitis virus by 50% in FS-4 cultures.) Furthermore, whereas type II interferon preparations had a reversible cytostatic effect on normal human fibroblasts at 10 units/ml, the transformed cells tested (HeLa, osteosarcoma, U-amnion) showed extensive cell death, thus indicating that it may have a cytocidal effect on certain tumor cells. It appears that human type II interferon (or a factor present in these preparations) may be a potent antitumor agent.
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PMID:Differential efficacies of human type I and type II interferons as antiviral and antiproliferative agents. 616 May 87

When mouse lymphoid cells derived from untreated C57BL/6 mice were cocultivated in liquid cultures with L-cell monolayers for 3 h, overlaid with soft agar, and then further incubated for 12 h, protected foci of L cells against vesicular stomatitis virus infection were formed. Many strains of mice have been found to have the protected focus-forming cells on the L-cell monolayers. The formation of the protected foci was completely suppressed by addition of cycloheximide into soft agar. When anti-interferon (type I) antiserum was added to soft agar, there was a decrease in focus counts of about 80%. These experimental results indicated that the formation of protected foci by untreated mouse lymphoid cells was mediated for the most part by type I interferon that was produced without addition of special inducer. We have designated these focus-forming cells as natural interferon-producing cells (NIPC). NIPC belong to the glass-adherent fraction, and Thy-1 antigen, immunoglobulin, and Ia antigen could not be detected on the surface of the NIPC. NIPC were detected in congenitally athymic nude mice. These findings suggest that NIPC belong to the Ia-negative macrophages. Mouse lymphoid cells obtained from germfree mice could form the protected foci on L-cell monolayers and could produce interferon without the addition of a special inducer. NIPC are considered to be a cellular background for spontaneous interferon production.
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PMID:Natural interferon-producing cells in mice. 616 18

ICSBP is a member of the interferon (IFN) regulatory factor (IRF) family that regulates expression of type I interferon (IFN) and IFN-regulated genes. To study the role of the IRF family in viral infection, a cDNA for the DNA-binding domain (DBD) of ICSBP was stably transfected into U937 human monocytic cells. Clones that expressed DBD exhibited a dominant negative phenotype and did not elicit antiviral activity against vesicular stomatitis virus (VSV) infection upon IFN treatment. Most notably, cells expressing DBD were refractory to infection by vaccinia virus (VV) and human immunodeficiency virus type 1 (HIV-1). The inhibition of VV infection was attributed to defective virion assembly, and that of HIV-1 to low CD4 expression and inhibition of viral transcription in DBD clones. HIV-1 and VV were found to have sequences in their regulatory regions similar to the IFN-stimulated response element (ISRE) to which IRF family proteins bind. Accordingly, these viral sequences and a cellular ISRE bound a shared factor(s) expressed in U937 cells. These observations suggest a novel host-virus relationship in which the productive infection of some viruses is regulated by the IRF-dependent transcription pathway through the ISRE.
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PMID:Inhibition of human immunodeficiency virus type 1 and vaccinia virus infection by a dominant negative factor of the interferon regulatory factor family expressed in monocytic cells. 855 43

Constitutive expression of the type I interferon-inducible human cytoplasmic MxA protein has been shown to interfere with primary transcription of vesicular stomatitis virus (VSV) in tissue culture cells. As phosphorylation of the VSV P protein has been linked to its ability to stimulate viral transcription, we analyzed the phosphorylation status of this protein in human brain cells (U-87) stably transfected with MxA. We observed a general increase in cellular kinase activity in the presence of MxA, affecting both cellular proteins and VSV P protein. Phosphorylation of the latter was up to threefold higher both in vivo and in vitro. In vitro phosphorylation of recombinant VSV P protein could be enhanced in MxA-negative cell extracts after exogenous addition of recombinant His-MxA. Biochemical evidence and phosphorylation of a mutant P protein lacking the recognized casein kinase II (CKII) sites suggested that hyperphosphorylation of VSV P protein was not due to a stimulation of CKII. We thus propose that expression of MxA in human brain cells is associated with the stimulation of a cellular kinase that is active in phosphorylating both cellular target proteins and VSV P protein.
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PMID:Expression of the human MxA protein is associated with hyperphosphorylation of VSV P protein in human neural Cells. 865 21

Mice lacking the receptor for type I interferon (IFN-alpha beta, A129 mice), for type II interferon (IFN-gamma, G129 mice) or for both receptors (AG129 mice) have been generated by embryonic stem cell mediated gene targeting and inter-crossing A129 x G129, respectively. The role of the two IFN systems in controlling a range of infections has been studied using these mice. Type I IFN is shown to be responsible for the immune defence against most viral infections tested (Lymphocytic Choriomeningitis Virus, Semliki Forest Virus, Theiler's Virus, Vesicular Stomatitis Virus), type II IFN seems to be of little importance. In Vaccinia Virus and Theiler's Virus infection, however, both IFN systems were found to play a nonredundant role. IFN-gamma was critical for the defence against intracellular bacteria (Mycobacterium, Listeria) and parasites (Leishmania), whereas IFN-alpha beta was not. IFN-alpha beta is produced by virus-infected cells within hours and plays an important role in preventing virus spread early. Production of IFN-gamma on the other hand needs activation of the immune system and plays a major role later, i.e. mostly during the immune response. Data obtained with the mice described here show that both IFN systems seem to have evolved to complement each other in the host defence against a wide variety of infectious agents.
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PMID:Immune defence in mice lacking type I and/or type II interferon receptors. 882 79

Protein arginine N-methyltransferase (PRMT1) is one of the proteins that bind to the intracytoplasmatic domain of the IFNAR-1 chain of the type I interferon (IFN) receptor system. The attachment is specific and is not seen with PRMT2, another member of this protein family. Antisense PRMT1 cDNA constructs expressed under the early cytomegalovirus (CMV) promoter were transfected into HeLa cells, and stable transformants were selected. Antibodies to PRMT1 were used to identify clones with reduced PRMT1 expression. In such clones, IFN-beta inhibited three to five times less the replication of vesicular stomatitis virus (VSV) than in the original HeLa cells. The antiproliferative effect of IFN-beta was also reduced up to fivefold in the clones with low PRMT1 expression. No difference was seen when IFN-gamma was used alone to inhibit cell growth. The protein methylating enzyme, bound to IFNAR-1, appears to regulate positively the biologic activity of type I IFN.
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PMID:Involvement of receptor-bound protein methyltransferase PRMT1 in antiviral and antiproliferative effects of type I interferons. 1009 Apr 4

Altered baby hamster kidney (BHK-R) cells, which were established by serial passage of BHK cells in the presence of Sendai virus (SeV), allowed vesicular stomatitis virus (VSV) to replicate despite treatment with type I interferon (IFN). We have analyzed here mechanisms of the unresponsiveness to IFN. BHK-R cells cultured in the absence of SeV for 10 days under the conditions of no cell division (BHK-R10D) became sensitive to IFN. Studies on induction of unresponsiveness to IFN in BHK-R10D cells revealed that entry of SeV nucleocapsids into a cell was essential. Interestingly, even UV-inactivated SeV but not Newcastle disease virus was found to be able to confer resistance to IFN on HeLa or BHK cells as well as on BHK-R10D cells, suggesting that the IFN-resistance resulted from functions of SeV independent of replication of the viral genome but not from mutations of the cellular genome. Furthermore immunofluorescent experiments demonstrated that UV-inactivated SeV could rescue VSV replication from the antiviral action of IFN without expression of SeV antigens, confirming that the secondary transcription resulting in synthesis of large amounts of viral proteins was dispensable for the IFN-resistance. Thus we have revealed a unique strategy of SeV against the antiviral action of IFN.
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PMID:Replication-incompetent Sendai virus can suppress the antiviral action of type I interferon. 1044 42

Type I interferon system is an important part of host's innate defense mechanisms against viral infections. The type I interferons mediate in part their antiviral effect via induction of various proteins. Among them the most widely known are 2'-5' oligoadenylate synthetase (2'-5' OAS) and a protein kinase (PKR). MxA, an other antiviral protein, is specifically induced by the type I interferons. The MxA protein contains the dynamin signature, which is implicated in transport processes. The MxA protein appears to block the replication of certain viruses at poorly defined steps. There are substantial differences in the antiviral activity of MxA between virus types. Indeed, the replication of vesicular stomatitis virus and influenza virus is inhibited by MxA, but not the one of type I herpes simplex virus. Measurements of interferon alpha and MxA levels may be of high value in clinical practice. Interferon alpha can be detected by using a bioassay based on the interferon alpha ability to protect cultured cells from the cytopathic effect caused by a selected challenged virus, or by using immunological techniques. The current bioassays are the most sensitive methods but they are cumbersome and lengthy, even though simplifications have been proposed. Immunological techniques are easier, however they do not explore the biological activity of the circulating interferon. The presence of type I interferon in biological samples (serum, plasma, cerebro-spinal fluid, cultured cell supernatants) can be indirectly assessed by capability of interferon alpha to induce in vitro the synthesis of MxA in a dose dependent manner in cultured cells. Following to the lysis of the cells, the induced MxA can be quantitated and hence the type I-interferon concentration can be determinated in samples. The quantitation of MxA protein in peripheral blood lysates can be useful as a specific marker of acute viral infections. A minute amount of whole blood (15 mul) is sufficient which facilitates its use in pediatrics. The specifically type-I-interferons inducible MxA protein is also a potential useful marker in the management of interferon alpha-treatment. Moreover, the detection of interferon alpha and antiviral proteins constitute an indirect approach for investigating the hypothesis of the role of viruses in chronic diseases with suspected infectious aetiology.
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PMID:[Alpha interferon, antiviral proteins and their value in clinical medicine]. 1057 14

An effective type I interferon (IFN-alpha/beta) response is critical for the control of many viral infections. Here we show that in vesicular stomatitis virus (VSV)-infected mouse embryonic fibroblasts (MEFs) the production of IFN-alpha is dependent on type I IFN receptor (IFNAR) triggering, whereas in infected mice early IFN-alpha production is IFNAR independent. In VSV-infected mice type I IFN is produced by few cells located in the marginal zone of the spleen. Unlike other dendritic cell (DC) subsets, FACS((R))-sorted CD11c(int)CD11b(-)GR-1(+) DCs show high IFN-alpha expression, irrespective of whether they were isolated from VSV-infected IFNAR-competent or -deficient mice. Thus, VSV preferentially activates a specialized DC subset presumably located in the marginal zone to produce high-level IFN-alpha largely independent of IFNAR feedback signaling.
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PMID:Virus-induced interferon alpha production by a dendritic cell subset in the absence of feedback signaling in vivo. 1185 66


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