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:C0019163 (hepatitis B)
38,309 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The human MxA protein is a new specific marker for type I interferon activity both in vitro and in vivo. In the study presented here, this interferon-induced marker, as well as the 2',5'-oligoadenylate synthetases, was measured in circulating mononuclear cells from 21 patients with acute hepatitis A, 20 patients with acute hepatitis B and 14 patients with acute hepatitis C for determination of the activation of the interferon system in these viral diseases. In acute hepatitis A a strong expression (10 of 10 patients) of the MxA protein and the 2',5'-oligoadenylate synthetase activity in peripheral-blood mononuclear cells was observed during the first 2 wk after onset of clinical symptoms. In this period the MxA protein concentrations reached levels similar to those measured in patients treated with up to 5 x 10(6) IU interferon-alpha three times a week. Beyond wk 3, in eight of eight patients with hepatitis A no increased MxA protein levels were found. In contrast, peripheral-blood mononuclear cells from patients with acute hepatitis B contained either no measurable MxA protein or only slightly higher levels of the MxA protein, as did those of most patients (12 of 14) with acute hepatitis C. The MxA protein levels of both hepatitis B and C patients were significantly lower (p < 0.05) than those found in hepatitis A patients. Furthermore, sera from 6 of 10 patients with hepatitis A, but none of 10 patients with acute hepatitis B and C, contained measurable MxA protein. This serum MxA protein may originate from interferon-exposed and subsequently damaged liver cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Strong transient expression of the type I interferon-induced MxA protein in hepatitis A but not in acute hepatitis B and C. 813 57

MxA protein is interferon inducible, and its role as an antiviral mediator is being studied in various viral diseases. Several cytokines, including type 1 interferons (alpha and beta), interleukins 2 and 12, and granulocyte, macrophage, and granulocyte-macrophage colony-stimulating factors, were tested for their ability to induce human MxA protein synthesis in peripheral blood mononuclear cells from 15 chronic hepatitis B virus-infected patients and 6 healthy subjects as controls. Constitutive MxA expression was scarce in patients and controls but increased significantly in response to type I interferons. MxA responsiveness to interferon alpha was diminished significantly in chronic hepatitis B patients, compared with healthy donors (P < 0.05); this effect was more marked in patients with high viremia levels. Interleukins 2 and 12, and none of the colony-stimulating factors tested, induced low, but detectable, MxA protein levels. These results indicate that chronic infection by hepatitis B virus may impair activation of the immune cells and their capacity to respond to type 1 interferons.
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PMID:Impaired interferon induction of human MxA protein in chronic hepatitis B virus infection. 909 49

Chronic hepatitis B treatment has been significantly improved by interferon (IFN) treatment. However, some studies have suggested that hepatitis B virus (HBV) might have a direct effect on the resistance to IFN. Defective particles, generated by spliced HBV RNA and associated with chronic hepatitis B, have been previously characterized; expression of these particles leads to cytoplasmic accumulation of the capsid protein. The aim of this study was to investigate the role of these defective genomes in IFN resistance. The global antiviral activity of IFN was studied by virus yield reduction assays, the expression of three IFN-induced antiviral proteins was analysed by Western blotting and confocal microscopy, and the regulation of MxA gene expression was studied by Northern blotting and the luciferase assay, in Huh7 cells transfected with a complete or the defective HBV genome. Results showed that the expression of the defective genome reduces the antiviral activity of IFN and that this modulation involves a selective inhibition of MxA protein induction by the HBV capsid protein. Our results also show the trans-suppressive effect of the HBV capsid on the MxA promoter, which might participate in this phenomenon. In conclusion, this study shows a direct interplay between the IFN-sensitive pathway and the capsid protein and might implicate this defective HBV genome in virus persistence.
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PMID:Inhibition of interferon-inducible MxA protein expression by hepatitis B virus capsid protein. 1035 72

Human MxA is an alpha/beta interferon-inducible intracytoplasmic protein that mediates antiviral activity against several RNA viruses. We had previously shown that overexpression of the hepatitis B virus (HBV) capsid led to selective downregulation of MxA gene expression, suggesting a mechanism by which the virus escapes from the host defense system (O. Rosmorduc, H. Sirma, P. Soussan, E. Gordien, P. Lebon, M. Horisberger, C. Brechot and D. Kremsdorf, J. Gen. Virol. 80:1253-1262, 1999). In the present study, we investigated the antiviral activity of MxA protein against HBV. MxA-expressing HuH7 clones were established and transiently transfected with HBV, and viral replication was then studied. Viral protein secretion was profoundly reduced in MxA-expressing clones by 80% for HBV surface antigen (HBsAg) and 70% for HBV e antigen (HBeAg). The levels of intracytoplasmic HBsAg and HBeAg were reduced by about 80 and 50% in the two MxA-positive clones tested. A nearly complete disappearance of HBV DNA replicative intermediates was observed in MxA-expressing clones. Although the expression of total viral RNAs was not modified, two- to fourfold reductions in HBV cytoplasmic RNAs were found in MxA-expressing clones. This suggests the inhibition of HBV replication at a posttranscriptional level. Indeed, using the well-characterized posttranscriptional regulation element (PRE) reporter system, we were able to demonstrate a marked reduction (three- to eightfold) in the nucleocytoplasmic export of unspliced RNA in MxA-expressing clones. In addition, MxA protein did not interact with HBV nucleocapsid or interfere with HBV nucleocapsid formation. Our results show an antiviral effect of MxA protein on a DNA virus for the first time. MxA protein acts, at least in part, by inhibiting the nucleocytoplasmic export of viral mRNA via the PRE sequence.
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PMID:Inhibition of hepatitis B virus replication by the interferon-inducible MxA protein. 1122 92

It is well established that interferon-alpha can induce non-cytotoxic intracellular suppression of hepatitis B virus replication, but the mechanisms involved are unclear. Cell culture studies to characterize these mechanisms are restricted, in part because hepatitis B virus replicates almost exclusively in liver-derived cells. To overcome this limitation we used a cytomegalovirus promoter-controlled hepatitis B virus expression system, which leads to intracellular viral replication even in non-hepatic cell lines. In this experimental system interferon-alpha treatment specifically suppressed viral replication demonstrating that antiviral activities against hepatitis B virus are not restricted to hepatic cells. Furthermore, the interferon-inducible MxA protein was recently reported to play a key role in the antiviral action of interferon-alpha against hepatitis B virus. Our data demonstrate that interferon-alpha also suppresses hepatitis B virus replication in MxA-deficient HEp2 cells, indicating that MxA is not essential for these activities. Taken together, our data imply that the experimental approach presented can also be adapted to established cell lines which are deficient in parts of the signal transduction pathway or other elements located further downstream, providing important insights into mechanisms specifically suppressing hepatitis B virus.
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PMID:Antiviral activity of interferon-alpha against hepatitis B virus can be studied in non-hepatic cells and Is independent of MxA. 1178 5

Interferon alfa (IFN-alpha) therapy remains a mainstay of treatment in active hepatitis B. However, sustained remission rates remain relatively low, and the search for factors important for response to therapy continues. Our study aimed to identify the host single nucleotide polymorphisms (SNPs) that predict IFN response in hepatitis B patients. We selected genes in the IFN pathway involved in antiviral and signaling activities and sequenced 22 SNPs for each of our 82 patients. Our results identified 2 SNPs in the antiviral pathway that may influence IFN response. One SNP in the regulatory region of the eIF-2alpha gene revealed A/G alleles. The rate of A/G heterozygotes is 22% in nonresponders (NR) and 2% in sustained responders (R), with an odds ratio (OR) of 12.82 (95% CI: 1.52-107.85, P =.009). After adjustment for age, sex, and HBV DNA level, the OR reaches 14.94 (95% CI: 1.45-153.71, P =.023). This marker revealed greater significance than HBV DNA levels (OR: 5, 95% CI: 1.01-2.43, P =.033) as a marker for IFN response, suggesting its potential advantage over conventional predictors. In addition, borderline significance for the SNP in MxA gene promoter at nt -88 revealed G/T alleles, with the G/T heterozygote rate being 19% in nonresponders and 43% in sustained R (P =.061), concurring with a previous study involving hepatitis C patients. In conclusion, this pilot identified SNPs as potential markers that could predict hepatitis B patient response. These observations may help guide future large-scale studies in examining host SNPs for their clinical utility in predicting IFN response.
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PMID:Genetic polymorphisms in interferon pathway and response to interferon treatment in hepatitis B patients: A pilot study. 1244 67

Hepatitis B is not only a preventable but now treatable disease. Five drugs have been approved for the treatment of chronic hepatitis B virus (HBV) infection: standard interferon-alpha (IFN), pegylated IFN, lamivudine, adefovir dipivoxil and entecavir. Among these agents, the responses to interferon therapy are invariably influenced by both host and viral factors. Therefore, understanding these factors is important for practicing hepatologists, and it may help design individualized medicine for the treatment of chronic hepatitis B. HBV genotypes affect the disease progression and outcomes of HBV-related chronic liver disease, as well as the response to antiviral treatments. Existing data indicate a better sustained response to standard IFN-alpha in HBeAg positive genotype B patients than genotype C patients, and in genotype A patients than genotype D patients. Nevertheless, conflicting results exist regarding the response to pegylated IFN, and more studies are needed. As to HBV genetic polymorphisms, a recent study showed that an IFN sensitivity-determiningregion may not exist within the whole genome of HBV subgenotype Ba, and host factors as well as virus-host interactions may be more important than viral factors alone in determining the treatment outcomes with IFN. Regarding host genetic polymorphisms, single nucleotide polymorphisms within eukaryotic translation initiation factor 2 and MxA promoter regions may be associated with the responsiveness to standard IFN-alpha treatment in patients with HBeAg positive chronic hepatitis B. In the foreseeable future, individualized chronic hepatitis B treatment algorithms should be tailored to host (immune status, ALT level and genomic polymorphisms), virus (HBeAg status, HBV DNA level, genotype, precore/basal core promoter mutants and pre-S deletion mutant) as well as liver disease status (hepatitis activity and fibrosis stage).
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PMID:Appropriate use of interferon for treatment of chronic hepatitis B. 1762 36

The influence of human genetics on the natural history of hepatitis B virus (HBV) infection may be diminished in endemic areas because infection at a young age predisposes to chronic HBV infection. The present study aimed to address this issue through the determination of the influences of single nucleotide polymorphisms (SNPs) of myxovirus resistence-1 (MxA) -88 G/T and interferon (IFN)-gamma +874 A/T on the natural history of HBV infection in endemic regions. One hundred adult patients with self-limiting HBV infection (positive for both anti-HBs and anti-HBc) and 340 adult patients with persistent HBV infection were recruited from southern China, an endemic area with an HBsAg carrier rate of 17.8%. SNPs of MxA -88 G/T and interferon (IFN)-gamma +874 A/T were typed using a protocol based on competitively differentiated polymerase chain reaction. A highly significant difference in the distribution of MxA -88 G/T was observed between those with persistent and self-limiting HBV infections. The latter displayed a lower frequency of the GG genotype (41.0% vs. 52.9%, P = 0.036) and a higher frequency of the TT genotype (16.0% vs. 2.4%, P = 0.000), compared to patients with persistent infection. These differences were not gender- or age-specific. However, a significant distribution difference of IFN-gamma +874 A/T was not observed. Between two groups of patients, respectively, the distribution frequencies of the AA genotype (65.0% vs. 72.8%, P = 0.139) and the TT genotype (2.0% vs. 1.2%, P = 0.894) were found. These results suggest that MxA gene -88 G/T and IFN-gamma +874 A/T behave differently in endemic HBV infections. Further study is necessary to clarify the influences of human genetics on endemic HBV infections.
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PMID:Influences of MxA gene -88 G/T and IFN-gamma +874 A/T on the natural history of hepatitis B virus infection in an endemic area. 1784 4

The interferon-alpha (IFN-alpha) gene family is an important part of the immune system. Recombinant interferon-alpha is widely used to treat viral hepatitis and malignant diseases. Marmota himalayana has been found to be susceptible to woodchuck hepatitis virus, a virus genetically related to hepatitis B virus (HBV), and is suitable as an animal model for studies on HBV infection. Here, the IFN-alpha gene family of M. himalayana (cwIFN-alpha) was characterized. Sequence data indicate that the cwIFN-alpha family consists of at least 8 functional sequences and 6 pseudogenes with high homology within the family and to IFN-alpha of Marmota monax, a related species and well-established animal model. The recombinant cwIFN-alpha subtypes were expressed and tested to be active in viral protection assay and to induce expression of MxA in a species-specific manner. This work provides essential information for future work on testing new therapeutic approaches of HBV infection based on IFN-alpha in M. himalayana.
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PMID:The interferon-alpha gene family of Marmota himalayana, a Chinese marmot species with susceptibility to woodchuck hepatitis virus infection. 1793 2

Multiple studies have established that GTPase activity is critical for MxA to act against RNA viruses. Recently, it was shown that MxA can also restrict the replication of hepatitis B virus (HBV), a DNA virus, but the requirements for GTPase activity in inhibition of HBV by MxA remain unknown. Here, we report that GTPase-defective mutants (K83A, T103A, and L612K) can downregulate extracellular HBsAg and HBeAg and reduce the expression of extra- and intracellular HBV DNA in HepG2 cells to levels similar to that achieved by wild-type MxA. Furthermore, TMxA and T103, two nuclear forms of wild-type MxA and a GTPase-defective mutant (T103A) could only slightly decrease the expression of extra- and intracellular HBV DNA in HepG2 cells. In conclusion, GTPase activity is not essential for MxA protein to inhibit HBV replication, and MxA may have only a minimal effect on the replicative cycle of HBV in the nucleus.
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PMID:GTPase activity is not essential for the interferon-inducible MxA protein to inhibit the replication of hepatitis B virus. 1866 95


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