UMLS:C0019163 - FACTA Search

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

The antigenic specificity of measles virus IgM antibodies in sera from patients with chronic active hepatitis not caused by hepatitis B virus has been examined. An immunosorbent column containing antihuman IgM covalently bound to Sepharose was used to pick up IgM from the sera. Radiolabelled measles virus antigens were then allowed to react with the IgM antibodies. The immune complexes were eluted and analysed by sodium dodecyl sulfate [SDS]-polyacrylamide gel electrophoresis. Four sera from patients with hepatitis B surface antigen [HBsAg]-negative chronic active hepatitis with high measles virus haemagglutination inhibition [HI] and complement fixation [CF] antibody titres and positive enzyme-linked immunosorbent assay [ELISA] for measles-virus-specific IgM were examined. The results were compared with those obtained using sera from patients with an acute measles virus infection and from healthy controls. In both patient groups, IgM antibodies with specificity against the matrix protein represented the major portion of the measles virus IgM. IgM antibodies against the measles virus nucleoprotein and probably against host-cell-derived actin were also present. The patient sera contained only traces of IgM antibodies with specificity against the measles virus haemagglutinin or fusion protein. No specific IgM antibodies were found in sera from healthy controls.
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PMID:IgM antibodies in sera from patients with chronic active hepatitis reacting with the measles virus matrix protein and nucleoprotein. 620 19

The large hepatitis B virus (HBV) surface protein (L) forms two isomers which display their N-terminal pre-S domain at the internal and external side of the viral envelope, respectively. The external pre-S domain has been implicated in binding to a virus receptor. To investigate functions of the internal pre-S domain, a secretion signal sequence was fused to the N terminus of L (sigL), causing exclusive expression of external pre-S domains. A fusion construct with a nonfunctional signal (s25L), which corresponds in its primary sequence to sigL cleaved by signal peptidase, was used as a control. SigL was N glycosylated in transfected COS cells at both potential sites in pre-S in contrast to s25L or wild-type L, confirming the expected transmembrane topologies of sigL and s25L. Phenotypic characterization revealed the following points. (i) SigL lost the inhibitory effect of L or s25L on secretion of subviral hepatitis B surface antigen particles, suggesting that the retention signal mapped to the N terminus of L is recognized in the cytosol and not in the lumen of the endoplasmic reticulum. (ii) SigL was secreted into the culture medium even in the absence of the major HBV surface protein (S), while release of an L mutant lacking the retention signal was still dependent on S coexpression. (iii) s25L but not sigL could complement an L-negative HBV genome defective for virion secretion in cotransfections. This suggests that the cytosolic pre-S domain, like a matrix protein, is involved in the interaction of the viral envelope with preformed cytosolic nucleocapsids during virion assembly.
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PMID:Functions of the internal pre-S domain of the large surface protein in hepatitis B virus particle morphogenesis. 747 74

The hepatitis B virus (HBV) envelope and the subviral lipoprotein particles contain three viral surface proteins (L, M, and S) which are expressed from one open reading frame by the usage of three start codons and a common stop codon. The largest surface protein L has some unusual properties. It adopts two different transmembrane topologies due to a posttranslational switch of the folding in approximately half of the L proteins. L molecules which expose their N-terminal preS1 domain on the viral particle surface are probably ligands for a putative virus receptor and determine the species specificity and liver tropism of this virus. L chains with internal preS1 domains are required in virion morphogenesis and mediate the contact to the nucleocapsid like a matrix protein. Overexpression of this form of the L protein is also responsible for the inhibition of viral particle release. This short review summarizes our knowledge on the biosynthesis and maturation of the HBV surface proteins and their functions in viral particle morphogenesis with special emphasis on the L protein.
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PMID:Functions of the large hepatitis B virus surface protein in viral particle morphogenesis. 895 66

The posttranscriptional regulatory element (PRE) of hepatitis B virus is an RNA element important for the export of viral mRNA from the nucleus to the cytoplasm. The cellular export pathway utilized by the PRE is controversial. We present data showing that PRE-dependent export is blocked by vesicular stomatitis virus matrix protein, an inhibitor of all cellular RNA export other than tRNA export. It is also blocked by a mutated form of Ran-binding protein 1, which blocks export mediated by the human immunodeficiency virus Rev and Rev-response element (RRE) but not export mediated by the simian retrovirus constitutive transport element (CTE). On the other hand, PRE-dependent export is not blocked by either TAgRex or leptomycin B, two agents that prevent Rev/RRE-mediated export. Therefore, PRE appears to utilize an export pathway different from that of Rev/RRE or CTE.
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PMID:Distinct export pathway utilized by the hepatitis B virus posttranscriptional regulatory element. 1038 54

Flt3 ligand mobilizes dendritic cells (DCs) into blood, allowing generation in vivo of large numbers of DCs for immunotherapy. These immature DCs can be rapidly activated by soluble CD40 ligand (CD40L). We developed a novel overnight method using these cytokines to produce DCs for cancer immunotherapy. Flt3 ligand-mobilized DCs (FLDCs) were isolated, activated with CD40L, loaded with antigenic peptides from influenza matrix protein, hepatitis B core antigen, NY-ESO-1, MAGE-A4, and MAGE-A10, and injected into patients with resected melanoma. Three injections were given at 4-week intervals. Study end points included antigen-specific immune responses (skin reactions to peptides alone or peptide-pulsed FLDCs; circulating T-cell responses), safety, and toxicity. No patient had a measurable tumor. Six patients were entered. FLDCs were obtained, enriched, and cultured under Good Manufacturing Practice grade conditions. Overnight culture with soluble CD40L caused marked up-regulation of activation markers (CD83 and HLA-DR). These FLDCs were functional and able to stimulate antigen-specific T cells in vitro. No significant adverse events were attributable to FLDCs. Peptide-pulsed FLDCs caused strong local skin reactions up to 60 mm diameter with intense perivascular infiltration of T cells, exceeding those seen in our previous peptide-based protocols. Antigen-specific blood T-cell responses were induced, including responses to an antigen for which the patients were naive (hepatitis B core antigen) and MAGE-A10. MAGE-A10-specific T cells with a skewed T-cell receptor repertoire were detected in 1 patient in blood ex vivo and from tumor biopsies. Vaccination with FLDCs pulsed with peptides is safe and primes immune responses to cancer antigens.
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PMID:Blood dendritic cells generated with Flt3 ligand and CD40 ligand prime CD8+ T cells efficiently in cancer patients. 1697 6

The extracellular domain of influenza A virus matrix protein 2 (M2e) is strongly conserved. Therefore, vaccines based on M2e can induce broad-spectrum immunity against influenza. We have mainly used recombinant virus-like particles derived from Hepatitis B virus core (HBc) as carrier for efficacious presentation of the M2e antigen. Here, we address whether pre-existing HBc-specific immunity interferes with the protective immune response obtained by M2e-HBc vaccination. Anti-HBc antibodies were induced by immunizing mice with unsubstituted HBc virus-like particles in the presence of two different adjuvants. We demonstrate that pre-existing HBc-specific antibodies affect neither the induction of M2e-specific antibody responses to vaccination with M2e-HBc particles, nor the protective efficacy of the resulting response. These results suggest that vaccination with M2e-HBc can induce protective anti-M2e antibodies even in anti-HBc positive individuals. The implications of these findings are discussed in the context of the clinical development of an M2e-based universal influenza vaccine, which recently successfully completed a Phase I trial.
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PMID:Universal influenza A M2e-HBc vaccine protects against disease even in the presence of pre-existing anti-HBc antibodies. 1883 15

The small hepatitis B virus surface antigens (HBsAg-S) have the ability to self-assemble with host-derived lipids into empty non-infectious virus-like particles (VLPs). HBsAg-S VLPs are the sole component of the licensed hepatitis B vaccine, and they are a useful delivery platform for foreign epitopes. To develop VLPs capable of transporting foreign cytotoxic T lymphocyte (CTL) epitopes, HBsAg-S specific CTL epitopes at various sites were substituted with a conserved CTL epitope derived from the influenza matrix protein. Depending on the insertion site, the introduction of the MHC class I A2.1-restricted influenza epitope was compatible with the secretion competence of HBsAg-S indicating that chimeric VLPs were assembled. Immunizations of transgenic HHDII mice with chimeric VLPs induced anti-influenza CTL responses proving that the inserted foreign epitope can be correctly processed and cross-presented. Chimeric VLPs in the absence of adjuvant were able to induce memory T cell responses, which could be recalled by influenza virus infections in the mouse model system. The ability of chimeric HBsAg-S VLPs to induce anti-foreign CTL responses and also with the proven ability to induce humoral immune responses constitute a highly versatile platform for the delivery of selected multiple epitopes to target disease associated infectious agents.
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PMID:Chimeric virus-like particles for the delivery of an inserted conserved influenza A-specific CTL epitope. 1900 18

Human influenza causes substantial morbidity and mortality. Currently, licensed influenza vaccines offer satisfactory protection if they match the infecting strain, but they come with significant drawbacks. These vaccines are derived from prototype viruses, containing the hemagglutinin of influenza viruses that are likely to cause the next epidemic. Their usefulness against a future pandemic, however, remains problematic. A vaccine based on the ectodomain of influenza matrix protein 2 (M2e) could overcome these drawbacks. M2e is highly conserved in both human and avian influenza A viruses. The low immunogenicity against natural M2e can be overcome by fusing M2e to an appropriate carrier such as Hepatitis B virus-derived virus-like particles. Such chimeric particles can be produced in a simple and safe bacterial expression system, requiring minimal biocontainment, and can be obtained in a pure form. Experiments in animal models have demonstrated that M2e-based vaccines induce protection against a lethal challenge with various influenza A virus subtypes. Furthermore, the production and use of an effective M2e-vaccine could be implemented at any time regardless of seasonality, both in an epidemic as well as in a pandemic preparedness program. In animal models, M2e-vaccines administered parenterally or intranasally protect against disease and mortality following challenge with various influenza A strains. Adjuvants suitable for human use improve protection, which correlates with higher anti-M2e antibody responses of defined subtypes. Recently, Phase I clinical studies with M2e-vaccines have been completed, indicating their safety and immunogenicity. Further clinical development of this universal influenza A vaccine candidate is being pursued in order to validate its protective efficacy in humans.
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PMID:M2e-based universal influenza A vaccine. 1984 Jun 61

The matrix protein 2ectodomain (M2e) of the influenza A virus is a rational target antigen candidate for the development of a universal influenza virus-like particle (VLP) vaccine. In this study, a recombinant M2 protein with three tandem copies of M2e (3M2e), nucleoprotein (NP) epitopes and hepatitis B virus core (HBc), were expressed in Escherichia coli and purified by column chromatography. Mice immunized with 3M2e-NP-HBc in combination with an oil-in-water SP01 adjuvant produced robust M2e specific antibodies and cellular immune responses. Most importantly, the 3M2e-NP-HBc VLP vaccine provided enhanced protection against a lethal challenge with pandemic 2009 H1N1 and HPAI H5N1 virus through increased survival rates, a significant decrease in viral replication, and obvious alleviation of histopathological lung changes in challenged mice. Our results imply that a cellular immune response to NP is a plausible mechanism mediating this enhanced protection. These findings suggest that 3M2e-NP-HBc VLP has great potential as the basis development of a broadly protective influenza vaccine.
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PMID:Enhanced Influenza VLP vaccines comprising matrix-2 ectodomain and nucleoprotein epitopes protects mice from lethal challenge. 2341 15

The ectodomain of influenza A matrix protein 2 (M2e) is a candidate for a universal influenza A vaccine. We used recombinant Hepatitis B core antigen to produce virus-like particles presenting M2e (M2e-VLPs). We produced the VLPs with and without entrapped nucleic acids and compared their immunogenicity and protective efficacy. Immunization of BALB/c mice with M2e-VLPs containing nucleic acids induced a stronger, Th1-biased antibody response compared to particles lacking nucleic acids. The former also induced a stronger M2e-specific CD4(+) T cell response, as determined by ELISPOT. Mice vaccinated with alum-adjuvanted M2e-VLPs containing the nucleic acid-binding domain were better protected against influenza A virus challenge than mice vaccinated with similar particles lacking this domain, as deduced from the loss in body weight following challenge with X47 (H3N2) or PR/8 virus. Challenge of mice that had been immunized with M2e-VLPs with or without nucleic acids displayed significantly lower mortality, morbidity and lung virus titers than control-immunized groups. We conclude that nucleic acids present in M2e-VLPs correlate with improved immune protection.
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PMID:M2e-displaying virus-like particles with associated RNA promote T helper 1 type adaptive immunity against influenza A. 2352 91

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