Päivi Keskinen scite author profile

Interferon-inducible Mx proteins belong to the family of large GTPases and are highly homologous with dynamins within their GTP-binding domain. Cytoplasmically localized human MxA protein mediates resistance to influenza and several other viruses, whereas human MxB protein has not been found to have any antiviral activity. Here we show that MxB protein is found both in the cytoplasm and in the nucleus, where it is localized in a granular pattern in the heterochromatin region beneath the nuclear envelope. Transfection experiments in COS cells of N-terminally deleted MxB constructs revealed a functional nuclear localization signal within the first 24 N-terminal amino acids. Nuclear 78-kDa and cytoplasmic 76-kDa forms of MxB protein were found in all of the cell lines studied and in human peripheral blood mononuclear cells. MxB protein proved to be a functional GTPase with activity comparable to that of MxA protein. N-terminally truncated (delta1-82) MxB protein lacking both the nuclear localization signal and a proline-rich domain had almost completely lost its GTPase activity. Analysis of peripheral blood mononuclear cells suggested that MxB protein expression is strictly regulated by interferon-alpha. This is the first documentation that human Mx protein resides in the nucleus. It also emphasizes that there are considerable differences in the localization and structure of functional domains within Mx proteins.

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Impaired Antiviral Response in Human Hepatoma Cells

Keskinen

et al. 1999

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Hepatitis B, C, and D viruses can infect liver cells and in some individuals establish a chronic phase of infection. Presently, relatively little information is available on the antiviral mechanisms in liver cells. Because no good in vitro model infection systems for hepatitis viruses are available, we have used influenza A, Sendai, and vesicular stomatitis (VSV) viruses to characterize interferon (IFN) responses and IFN-induced antiviral mechanisms in human hepatoma cell lines. HepG2 or HuH7 cells did not show any detectable IFN-alpha/beta production in response to influenza A or Sendai virus infections. Treatment of cells with IFN-alpha resulted in upregulation of IFN-alpha-inducible Mx, 2',5'-oligoadenylate synthetase (OAS) and HLA class I gene expression but only with exceptionally high levels of IFN-alpha (>/=100 IU/ml). Accordingly, high pretreatment levels of IFN-alpha, 1000 IU/ml for influenza A and VSV and 100 IU/ml for Sendai virus, were required before any detectable antiviral activity against these viruses was seen. IFN-gamma had some antiviral effect against influenza A virus but appeared to be ineffective against VSV and Sendai virus. IFN-gamma upregulated HLA class I protein expression, whereas Mx or OAS expression levels were not increased. There was a modest upregulation of HLA class I expression during Sendai virus infection, whereas influenza A virus infection resulted, after an initial weak upregulation, in a clear decrease in HLA class I expression at late times of infection. The results suggest that hepatoma cells may have intrinsically poor ability to produce and respond to type I IFNs, which may contribute to their inability to efficiently resist viral infections.

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Expression of hepatitis C virus core protein inhibits interferon‐induced nuclear import of STATs

Melén

Fagerlund

Nyqvist

et al. 2004

Journal of Medical Virology

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IFN-alpha combined with ribavirin is used for the treatment of chronic hepatitis C. However, HCV has mechanisms to resist the antiviral actions of IFN-alpha. In order to study the molecular mechanisms of this resistance, the effect of HCV gene expression on IFN-induced nuclear import of STAT transcription factors and the expression of antiviral MxA protein were studied. In transiently transfected hepatoma cells, HCV core and NS5A proteins clearly inhibited the nuclear import of STAT1 and MxA protein expression (core only), whereas other viral proteins had only a marginal effect. To confirm these observations, human osteosarcoma-derived cell lines, which inducibly express HCV core protein, the entire structural region (core-E1-E2-p7), the NS3-4A complex, NS4B, NS5A, or NS5B proteins were also used. IFN-induced nuclear accumulation of STAT1 was almost completely and STAT2 was partially blocked in cell lines expressing high levels of HCV core protein. Subsequently, in these cells, IFN-alpha-induced MxB protein expression was decreased. Tumor necrosis factor-alpha (TNF-alpha)-induced nuclear import of NF-kappaB was only weakly or not at all inhibited, suggesting that the nuclear import machinery in general was not impaired. The results demonstrate a novel mechanism by which HCV gene expression may interfere with IFN-mediated host defence systems.

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Regulation of HLA class I and II expression by interferons and influenza A virus in human peripheral blood mononuclear cells

et al. 1997

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SUMMARYHLA class I and II molecules play a central role in regulating host immune responses against microbial infections because they present foreign antigens to CD8+ and CD4+ T lymphocytes, respectively. Many cytokines, especially interferons (IFN ), are known to upregulate human leucocyte antigen (HLA) class I and II gene expression, but the kinetics, expression levels and viral regulation of HLA genes in primary human cells have not been well documented. Stimulation of peripheral blood mononuclear cells ( PBMC) with IFN-a and IFN-c resulted in a 1·5-to twofold increase in HLA class I and b2-microglobulin expression in lymphocytes and monocytes. Lymphocytes did not express any detectable HLA class II either basally or after IFN induction. In monocytes, instead, a high basal class II expression was found and it was further induced by IFN-a (up to twofold) and especially by IFN-c (up to fivefold). In granulocyte-macrophage colony-stimulating factor (GM-CSF ) diÂerentiated human macrophages, basal HLA class I and II protein expression levels were high but IFN-c stimulation was able to further enhance their expression. Accordingly, class I and II mRNA expression was elevated by IFN-c, whereas IFN-a practically had no eÂect on HLA class I mRNA levels. Influenza A virus infection of macrophages resulted in temporary increases in HLA class I, b2-microglobulin and class II antigen expression. Neutralization of virus-induced IFN production by antibodies against type I and II IFNs prevented the virus-induced upregulation of HLA antigens. At late times of infection, as analysed by steady-state mRNA expression, both HLA class I and II mRNA were strongly reduced. These results suggest that IFNs are important regulators of HLA genes and responsible for a temporary increase in HLA antigen expression during influenza A virus infection.

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Expression of HCV Structural Proteins Impairs IFN-Mediated Antiviral Response

2002

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Hepatitis C virus (HCV), especially the genotype 1, is naturally resistant to the antiviral effects of interferon-alpha (IFN-alpha). Expression of the whole HCV genome and the NS5A protein has been suggested to interfere with the antiviral activity of IFN-alpha. Here we have analyzed the effect of individual or various combinations of HCV proteins on IFN-alpha-mediated antiviral effect against vesicular stomatitis virus (VSV). When the structural proteins (core-E1-E2) of HCV genotype 1 were expressed in human osteosarcoma cells in a tetracycline-regulated manner, partial VSV resistance to IFN-alpha was established. This was seen as an enhancement of both viral protein synthesis and production of infectious virus. Priming of core-E1-E2-expressing cells with low doses of IFN-gamma (10 IU/ml) partially restored the antiviral activity of IFN-alpha. The core (high-level expression) and NS4B protein expression also showed some rescue of VSV replication. In this model cell system NS3A-NS4A complex and NS5A showed no inhibition of IFN-alpha-induced antiviral activity. Our results indicate that the expression of structural proteins of HCV may impair the antiviral activity of IFNs.

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Päivi Keskinen

Human MxB Protein, an Interferon-α-inducible GTPase, Contains a Nuclear Targeting Signal and Is Localized in the Heterochromatin Region beneath the Nuclear Envelope

Impaired Antiviral Response in Human Hepatoma Cells

Expression of hepatitis C virus core protein inhibits interferon‐induced nuclear import of STATs

Regulation of HLA class I and II expression by interferons and influenza A virus in human peripheral blood mononuclear cells

Expression of HCV Structural Proteins Impairs IFN-Mediated Antiviral Response

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