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)

We investigated the specific priming of MHC class I-restricted cytotoxic T lymphocytes (CTL) by different protein antigen preparations in mice. The recombinant viral protein antigens tested are of potential relevance for the design of subunit vaccines. They include the hepatitis B virus (HBV) surface antigen (S-antigen), the HIV-1 gp160 envelope protein, and a chimeric HIV-1 Pr55-gag/V3-3 retrovirus-like particle. In addition, ovalbumin (OVA) was tested. The native or denatured particulate (multimeric) or monomeric form of these protein antigens was injected by various routes into mice. Class I-restricted CTL were efficiently primed by a single low-dose injection of HBV S-antigen particles or the chimeric HIV-1 Pr55-gag/V3-3 particles. After SDS-denaturation, gel-purified monomeric S-antigen and monomeric Pr55-gag/V3-3 fusion protein were still very efficient in priming CTL. CTL sensitization was not detected in a (primary or boosted) response to even high doses of native OVA or native HIV-1 gp160. Denaturation of these two antigens by detergent strikingly increased their immunogenicity for CTL. Immunization of mice with non-treated or SDS-denatured antigenic peptides representing the relevant CTL-defined epitopes of the tested protein antigens did not prime CTL. These data indicate that native, particulate and denatured, monomeric protein antigens efficiently stimulate a class I-restricted CTL response.
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PMID:Priming of class I-restricted cytotoxic T lymphocytes by vaccination with recombinant protein antigens. 748 9

The outcome of hepatitis B and C heavily depends on the appropriate virus specific T cell response. Both CD8+ and CD4+ T lymphocytes do not recognize native viral proteins but processed peptides bound to MHC class I and class II, respectively. For therapeutical intervention aimed at T lymphocytes in chronic carriers as well as for the development of new vaccines, a precise identification of immunodominant epitopes, which can be recognized by a majority of patients, is necessary. Biological features of certain viral antigens have been partly characterized in animal models, but with the availability of modern molecular technology it is possible to extend these findings to the human system. The identification of anchor residues and motifs in peptides, which are essential for binding to certain MHC class I and class II molecules, allows the prediction of MHC allele-specific epitopes within viral proteins. By the use of synthetic peptides and vaccinia expression vectors, several epitopes for cytotoxic and helper T lymphocytes have been identified in HBV and HCV antigens. In HBV infection cytotoxic T lymphocytes recognize epitopes within the polymerase protein, the envelope protein and the nucleocapsid. In HCV cytotoxic epitopes have so far been identified within the nucleocapsid, E1, E2 and NS2. Since virus specific CD8+ T lymphocytes lyse virus infected cells in vitro and seem to play an important role for viral elimination in vivo, activation of virus specific effector cells may be achieved by immunizing chronically infected patients with the MHC-allele-specific peptides. Epitopes for CD4+ T lymphocytes have been demonstrated in the majority of HBV- and HCV-proteins. Different subsets of CD4+ T lymphocytes influence the course of infection by the production of lymphokines which either support antibody production by B cells or cellular antiviral effector mechanisms. In acute and chronic HBV infection the HBcAg/HBeAg-specific T cell response is closely correlated to viral elimination and the occurrence of anti-HBe- and anti-HBs antibodies. In HCV infection the CD4+ T cell response appears to be more heterogenous, and better functional characterization of the CD4+ response to immunodominant peptide epitopes in association with certain disease stages is required. Since T cell activation, the resulting effector functions and binding of the peptide to the HLA-molecule mainly depend on the peptide structure, viral mutations leading to amino acid changes may contribute to T cell non-responsiveness or an inappropriate T cell response.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:T cell recognition of hepatitis B and C viral antigens. 753 42

Identification of T-cell epitopes from foreign proteins is the current focus of much research. Methods using simple two or three position motifs have proved useful in epitope prediction for major histocompatibility complex (MHC) class I, but to date not for MHC class II molecules. We utilized data from pool sequence analysis of peptides eluted from two HLA-DR13 alleles to construct a computer algorithm for predicting the probability that a given sequence will be naturally processed and presented on these alleles. We assessed the ability of this method to predict known self-peptides from these DR-13 alleles, DRB1(*)1301 and *1302, as well as an immunodominant T-cell epitope. We also compared the predictions of this scoring procedure with the measured binding affinities of a panel of overlapping peptides from hepatitis B virus surface antigen. We concluded that this method may have wide application for the prediction of T-cell epitopes for both MHC class I and class II molecules.
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PMID:An empirical method for the prediction of T-cell epitopes. 759 Sep 73

To study the immunoreactivity genes in a heterogeneous human population needs a large number of individuals. Associations between HLA antigens and immunoresponse to viral or bacterial antigens have been studied with controversial results. As a homogeneous population, the MHC class I, II and III allele distribution was studied in 153 end-stage renal disease patients (ESRD, average duration of renal replacement: 8.2 + 5.1 years) immunized with a recombinant hepatitis B vaccine in accordance to the standard vaccination schedule. Thirty-four patients with an antibody titre of less than 10 U/l following the last booster injection were considered as non-responders while 119 patients with antibody titre equal to or more than 10 U/l were considered as responders. The responder group was divided into two subgroups: low responders (antibody titre: < or = 1000 U/l) and high responders (antibody titre: > 1000 U/1). Marked differences were observed between responders and non-responders in the occurrence of carriers of different MHC class I, II and III alleles. Homozygotes for HLA-A1, HLA-B8, HLA-DR3 and HLA-DQ2 were found almost exclusively in the non-responder group and significantly more heterozygotes for these alleles were found in the non-responder group compared to the responders. Similar albeit less marked differences were found in the frequency of some MHC class III alleles (C4A*6, C4A*QO, Bf*F, Bf*S0.7). Within the responder group, carriers of HLA-A2, HLA-B7 and HLA-DR4 were found to be clustered in the low responder sub-group whereas carriers of HLA-A1, HLA-B27, HLA-Cw2, C4A*6 and Bf*F were observed more frequently in the group of high responders. Similar differences were found with extended haplotypes as well. For example, the extended haplotypes HLA-A1, B8, BfS, C4AQO, C4B1, DR3, DQ2 and HLA-A1, B8, BfF, C4A6, C4B2, DR3, DQ2 were present in nine of 34 cases of non-responders but only in one of 119 case of responders (P < 0.000001). These observations indicate that the presence or absence of certain MHC alleles even in heterozygous form determine the responsiveness to hepatitis B vaccination in end-stage renal disease patients, and among responders, the intensity of antibody response is also markedly influence by immunogenetic factors.
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PMID:Relationship between the reactivity to hepatitis B virus vaccination and the frequency of MHC class I, II and III alleles in haemodialysis patients. 763 Nov 46

MHC class I-restricted, hepatitis B surface Ag (HBsAg)-specific, CD8+ polyclonal CTL lines and clones cause a severe necroinflammatory liver disease when they are injected i.v. into transgenic mice that display widespread tissue expression of HBsAg. Surprisingly, the same CTLs fail to cause disease in any other HBsAg-positive tissue in these animals. However, the CTLs are highly cytopathic for HBsAg-positive renal tubules and choroid plexus epithelial cells when they are injected extravascularly, either beneath the kidney capsule or intracerebrally. Analysis of the microvascular anatomy of these tissues reveals that the hepatic sinusoid is characterized by a discontinuous endothelium and the absence of a basement membrane. In contrast, the vasculature of most other tissues displays a continuous endothelium and basement membrane; and the epithelial cells of many of these tissues are also surrounded by a separate basement membrane. These results suggest that viral, tumor, and normal self Ags expressed in the liver are readily accessible to class I-restricted T cells, whereas the vascular endothelium and/or the vascular and cellular basement membranes constitute an extremely effective barrier that precludes CTL access to tissue Ag at many other sites. Because class I-restricted Ag recognition occurs throughout the body in many natural diseases and disease models, the vascular barrier must be breached by other events before CTL access to endogenously synthesized epithelial Ag can occur.
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PMID:CTL access to tissue antigen is restricted in vivo. 802 89

To analyse the immunological mechanism of hepatocellular injury in hepatitis B virus (HBV) infection, the immunoreactivity of HBV-encoded antigens as a target for cytotoxic T lymphocyte (CTL) response was examined using recombinant vaccinia virus (RVV) expressing surface protein (S), precore/core protein (PC), and core protein (C) of HBV. C3H/He mice (H-2k) were inoculated with each RVV. Their spleen cells were then harvested and stimulated in vitro with the histocompatible transfectant, which stably expressed hepatitis B surface antigen (HBsAg), hepatitis B e antigen (HBeAg), and hepatitis B core antigen (HBcAg), and used as effectors. As the targets, L cells (H-2k) infected with individual RVV were used. Cytotoxic test was performed with various combinations and ratios of effectors and targets. The reactivity of PC-primed effectors against PC-expressing targets was greatest with 71.4% specific lysis on average at an effector/target ratio of 12.5:1 among all the combinations. C-primed effectors against C-expressing target also revealed rather high cytotoxicity (specific lysis, 40.6% at an E/T ratio of 12.5:1). Furthermore, PC-primed and C-primed effectors showed a cross-reactivity to the targets expressing other nucleocapsid antigen, respectively. S-primed effectors showed less lytic activity against S-expressing targets (specific lysis, 18.4% at an E/T ratio of 12.5:1). The CTL responses were blocked by anti-CD8 and anti-major histocompatibility complex (MHC) class I antibodies, but not by anti-CD4 or anti-MHC class II. These findings suggest that endogenously synthesized nucleocapsid antigen, especially PC, is a dominant target for the MHC class I-restricted CTL in H-2k mice and that this system may work as an efficient model to study immunopathogenesis of HBV infection.
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PMID:Relative immunogenicity of hepatitis B virus-encoded antigens as targets for cytotoxic T-cell response. 826 60

Peptides recognized by CD8+ cytotoxic T lymphocytes in the context of major histocompatibility complex (MHC) class I molecules are usually derived from endogenous proteins synthesized within the cell. Exogenous 22-nm hepatitis B surface antigen (HBsAg) particles are taken up by many cells, and are processed in a novel peptide-transporter-independent, endosomal or lysosomal pathway for class I (Ld)-restricted epitope presentation. Here, we present evidence that 'empty' Ld molecules derived from the cell surface are involved in presenting antigenic peptides from endocytosed HBsAg particles. Intracellular assembly of presentation-competent, trimeric Ld molecules required endocytosis of the exogenous antigen and 'empty' Ld molecules. These data assign a functional role to surface-associated, 'empty' MHC class I molecules.
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PMID:'Empty' Ld molecules capture peptides from endocytosed hepatitis B surface antigen particles for major histocompatibility complex class I-restricted presentation. 897 73

The clinical outcomes of both hepatitis B and C virus infection are immensely variable, ranging from subclinical, self-limiting infection to end-stage liver disease with hepatocellular carcinoma. Knowledge of the host factors that determine these outcomes is important for the understanding and management of these diseases and may in the future guide rational drug development. Epidemiologic studies have elucidated the role of age (at the time of infection) and sex on disease outcome and the complex role of HIV coinfection has become clearer with time. More recently, investigation of genetic susceptibility to the most adverse outcomes of infection has identified the importance of polymorphisms in the MHC class I and II loci, mannose-binding protein, and the TNF alpha promoter. However, relative to malaria, the study of genetic susceptibility in viral hepatitis is still in its infancy.
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PMID:Host factors in chronic viral hepatitis. 940 70

Processing of exogenous hepatitis B surface antigen (HBsAg) particles in an endolysosomal compartment generates peptides that bind to the major histocompatibility complex (MHC) class I molecule Ld and are presented to CD8+ cytotoxic T lymphocytes. Surface-associated 'empty' MHC class I molecules associated neither with peptide, nor with beta2-microglobulin (beta2m) are involved in this alternative processing pathway of exogenous antigen for MHC class I-restricted peptide presentation. Here, we demonstrate that internalization of exogenous beta2m is required for endolysosomal generation of presentation-competent, trimeric Ld molecules in cells pulsed with exogenous HBsAg. These data point to a role of endocytosed exogenous beta2m in the endolysosomal assembly of MHC class I molecules that present peptides from endosomally processed, exogenous antigen.
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PMID:Processing of exogenous hepatitis B surface antigen particles for Ld-restricted epitope presentation depends on exogenous beta2-microglobulin. 946 37

The murine melanoma cell line B16.F10 (H-2b) was used to study specific T cell responses that reject tumors. Stable B16 transfectants were established that express viral Ags, either the hepatitis B surface Ag (HBsAg) or the large tumor Ag (T-Ag) of SV40. B16 cells and their transfected sublines were CD40+ CD44+ but expressed no (or low levels of the) costimulator molecules CD154 (CD40L), CD48, CD54, CD80, and CD86. Surface expression of MHC class I (Kb, Db) and class II (I-Ab) molecules by B16 cells was low, but strikingly up-regulated by IFN-gamma. CD95 (Fas) and CD95 ligand (CD95L (FasL)) were "spontaneously" expressed by B16 cells growing in vitro in serum-free medium; these markers were strikingly up-regulated by IFN-gamma. B16 cells coexpressing CD95 and CD95L were irreversibly programmed for apoptosis. In vitro, noninduced B16 transfectants stimulated a specific IFN-gamma release response, but no cytolytic response (in a 4-h assay) in MHC class I-restricted CTL; in contrast, IFN-gamma-induced B16 targets were efficiently and specifically lysed by CTL. In vivo, B16 transfectants were specifically rejected by DNA-vaccinated syngeneic hosts through a T-dependent immune effector mechanism. The tumors showed evidence of massive apoptosis in vivo during the rejection process. The data suggest that CTL-derived IFN-gamma enhances an intrinsic suicide mechanism of these tumor cells in addition to facilitating lytic interactions of effectors with tumor targets.
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PMID:T cell-mediated, IFN-gamma-facilitated rejection of murine B16 melanomas. 967 Sep 68

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