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 fine specificity of the human T cell response to the hepatitis B virus core antigen (HBcAg) was investigated in 23 patients with acute hepatitis B virus (HBV) infection using a panel of short synthetic peptides covering the entire core region. An immunodominant T cell epitope which was recognized by all except one patient, was identified within the core sequence 50-69. Two further important T cell recognition sites were represented by the amino acid sequences 1-20 and 117-131, which were stimulatory for the T cells of 69% and 73% of the patients, respectively. T cell recognition of the synthetic peptides was HLA class II restricted because the peptide-induced T cell proliferation was inhibited by anti-HLA class II but not by anti-HLA class I monoclonal antibodies. These findings may be relevant to the development of future preventive and therapeutic strategies against HBV infection.
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PMID:Fine specificity of the human T cell response to hepatitis B virus core antigen. 128 May 6

The T-cell response to hepatitis B virus envelope antigens was studied in 11 hepatitis B vaccine recipients; 7 were selected to analyze the fine specificity of the T-cell response to the preS1 antigen. Four distinct T-cell epitopes were identified by peripheral blood lymphomononuclear cell stimulation with a panel of short synthetic peptides covering the preS1 sequence. The immunodominance of the preS1 epitopes included within peptides 21-30 and 29-48 was shown by their capacity to restimulate an HLA class II restricted proliferative response of T cells primed with the whole preS1 antigen. Conversely, peptide-specific T cells selected by peripheral blood lymphomononuclear cell stimulation with peptides 21-30 and 29-48 were able to recognize the native preS1 molecule, confirming that these epitopes are actually generated by the intracellular processing of preS1. Finally, amino acid residues essential for T-cell activation by peptide 21-30 were identified using 10 analogues of the stimulatory peptide containing single alanine substitutions. These results may be relevant to the design of efficient synthetic vaccines against hepatitis B virus infection.
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PMID:Fine specificity of the human T-cell response to the hepatitis B virus preS1 antigen. 137 42

Knowledge of hepatitis B immunopathogenesis has greatly improved in the last few years thanks to the development of new methods of lymphocyte culture and the introduction of molecular techniques in the study of the cell-mediated antiviral immune responses. Some of the immune mechanisms likely responsible for liver cell injury and viral clearance during hepatitis B have recently been characterized. By using synthetic peptides and high efficiency recombinant expression vectors. HLA class I restricted cytotoxic T cells specifically able to recognize the nucleocapsid antigen of the hepatitis B virus (HBV) have been isolated from the blood of patients with acute self-limited hepatitis B. The observation that this cytotoxic response is lacking or very weak in chronic patients who do not succeed in clearing the virus suggests a major role for cytotoxic T cells in terminating virus infection. Similar behaviour is shown by HLA class II restricted CD4+ T cells which express much stronger levels of response to HBV nucleocapsid antigens in acute than in chronic HBV infection. Whether these defective responses in chronic patients are due to an actual lesion of the host's immune system or to viral mutations affecting immune surveillance and thereby allowing virus escape, still remain open issues. A definitive answer to these questions will, we hope, provide the appropriate tools to devise effective immune therapies against chronic HBV infection.
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PMID:[The immunopathogenesis of hepatitis B]. 145 54

Hepatitis B virus (HBV)-associated nucleocapsid antigen (HB core and HB e) is believed to be a major target for T cell-mediated hepatocellular damage in chronic HBV carriers. Studies were undertaken to determine whether both nucleocapsid Ag could be recognized by T cell lines from peripheral blood mononuclear cells (PBMC) from patients with chronic hepatitis B. After cultivation in the presence of rHBcAg or purified HBeAg, growing cells were cloned by limiting dilution in the presence of PHA, IL-2 and allogenic feeder cells. Four HBcAg-reactive and three HBeAg-reactive T cell lines from two patients were generated by proliferation assays. None of the cell lines responded to HB surface Ag or PPD. Four lines were of the CD8+ CD11b- cytotoxic phenotype, two of the CD4+ Leu8- helper phenotype, and the remaining one consisted of mixed populations of CD4+ Leu8+ and CD4+ Leu8- cells. Cross-reactivity study showed that a HBcAg-induced CD4+ T cell line responded to HBeAg, and similarly a HBeAg-induced CD8+ T cell line responded to HBcAg. The reactions were inhibited by HLA class II antibody, but not by class I Ab.
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PMID:T cell lines reactive with hepatitis B core and E antigens in patients with chronic hepatitis B. 166 81

Several lines of experimental evidence suggest that inclusion of core sequences in the hepatitis B vaccine may represent a feasible strategy to increase the efficacy of the vaccination. In order to identify immunodominant core epitopes, peripheral blood T cells purified from 23 patients with acute hepatitis B and different HLA haplotypes were tested with a panel of 18 short synthetic peptides (15 to 20 amino acids [AA]) covering the entire core region. All patients except one showed a strong T cell proliferative response to a single immunodominant 20 amino acid sequence located within the aminoterminal half of the core molecule. Two additional important sequences were also identified at the aminoterminal end and within the carboxyterminal half of the core molecule. These sequences were able to induce significant levels of T cell proliferation in 69 and 73% of the patients studied, respectively. T cell response to these epitopes was HLA class II restricted. The observations that (a) polyclonal T cell lines produced by PBMC stimulation with native HBcAg were specifically reactive with the relevant peptides and that (b) polyclonal T cell lines produced with synthetic peptides could be restimulated with native HBcAg, provide evidence that AA sequences contained within the synthetic peptides represent real products of the intracellular processing of the native core molecule. In conclusion, the identification of immunodominant T cell epitopes within the core molecule provides the molecular basis for the design of alternative and hopefully more immunogenic vaccines.
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PMID:Identification of immunodominant T cell epitopes of the hepatitis B virus nucleocapsid antigen. 171 41

In this study, we show that CD4+, hepatitis B virus (HBV) envelope-specific T-cell clones produced by stimulation with a particulate antigen preparation are able to recognize and kill not only autologous antigen-presenting cells incubated with exogenous HBV envelope antigens but also autologous HLA class II-positive cells expressing endogenously synthesized HBV envelope antigens following infection with recombinant vaccinia viruses or transfection with recombinant Epstein-Barr virus expression vectors. Experiments with lysosomotropic agents and brefeldin A suggest that the endosomal compartment is likely involved in the processing of endogenously synthesized viral proteins for recognition by CD4+ T cells. Our study indicates that HBV envelope-specific, HLA class II-restricted CD4+ cytotoxic T lymphocytes can potentially participate in the immune clearance of HBV-infected cells and the pathogenesis of hepatocellular injury in hepatitis B.
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PMID:Hepatitis B virus (HBV)-specific cytotoxic T-cell (CTL) response in humans: characterization of HLA class II-restricted CTLs that recognize endogenously synthesized HBV envelope antigens. 173 Oct 98

We have previously reported the establishment and preliminary characterization of polyclonal hepatitis B virus (HBV) nucleoprotein (HBcAg)-specific CD4+ and CD8+ T cell lines derived from the hepatic lymphomononuclear cell infiltrate of several patients with chronic active hepatitis B. The isolated subsets from these lines were specifically activated by HBcAg and displayed antigen-specific help and suppression with respect to proliferation of the alternate subset. One of these lines was recently cloned by limiting dilution, and four HBcAg-specific CD3+ CD4+ CD8-DR+ T cell lines were produced that had a 95.3% likelihood of monoclonality. Antigenic specificity was confirmed by dose-dependent, HLA class II (DR)-restricted proliferation in response to recombinant and human serum-derived HBcAg and the lack of proliferation to HBV envelope antigens (HBsAg and pre-S(2)Ag). All cloned lines were interleukin 2 dependent, produced interferon-gamma in an antigen-specific manner, and provided antigen-specific help to autologous B cells with respect to anti-HBc production. We conclude that HBcAg-specific, HLA-class II restricted helper T cells capable of inducing antigen-specific functional responses by autologous B lymphocytes and T lymphocytes are present at the site of viral antigen synthesis and hepatocellular injury in HBV infection.
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PMID:Functional characterization of cloned intrahepatic, hepatitis B virus nucleoprotein-specific helper T cell lines. 243 90

Hepatitis B core (HBc)Ag-specific T cells present in the peripheral blood of a patient with chronic active hepatitis B were expanded by co-cultivation for 7 days with rHBcAg. After cloning at 1 cell/well in the presence of PHA and IL-2, five HBcAg-specific CD4+ cloned lines were obtained. All five lines proliferated and produced IL-2, IFN-gamma, and TNF in a dose-dependent fashion in response to HBcAg, but not to HBV envelope Ag. The cloned lines and derivative clones were HLA class II (DR1) restricted. All T cell clones were able to induce anti-HBc production by autologous B cells in response to HBcAg (helper effect). The proliferative response and the helper effect of the HBcAg-specific T cell lines and clones were augmented by co-cultivation with an autologous, autoreactive (HLA-DQ1 specific) T cell clone, even in the absence of HBcAg, and the autoreactive T cells directly stimulated anti-HBc secretion by autologous B cells, presumably due to the release of Ag-nonspecific factors. These findings define a model immunoregulatory circuit the physiologic significance of which remains to be determined.
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PMID:Functional modulation of hepatitis B core antigen-specific T lymphocytes by an autoreactive T cell clone. 245 43

In order to elucidate the mechanism by which HLA antigens expression is induced or enhanced on the injured or transformed hepatocytes, we have made in vitro studies using human hepatic tumor-derived cell lines as a model system. In the present study, PLC-PRF-5 cells that have the integrated form of hepatitis B virus genome in DNA were treated with 5-azacytidine (5-azaC) in combination with gamma-interferon (IFN-gamma) or dimethyl sulfoxide (DMSO). HLA antigens on the cell surface were quantitated by using a modified cell-ELISA method. As a result, it was demonstrated that DMSO- or IFN-gamma-treatment enhanced expression of HLA class I antigens on the cell surface. In addition, enhanced expression of the antigens on PLC-PRF-5 cells treated with 5-azaC in combination with IFN-gamma or DMSO represented a synergistic effect of these inducers on HLA class I antigens expression although no changes in HLA antigens expression were induced after 5-azaC-treatment alone in short-term experiments. Furthermore, an indirect immunofluorescent analysis of hepatitis B surface antigen on the cells demonstrated increased expression of the antigen after 5-azaC-treatment alone. HLA class II antigens and hepatitis B core antigen were not induced even after those treatments and also not after a long-term experiment. These results might indicate possible modulation of HLA class I and hepatitis B virus antigens expression on the cultured cells by a DNA hypomethylating agent, 5-azaC.
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PMID:Synergistic effect of 5-azacytidine and gamma-interferon or dimethyl sulfoxide on expression of HLA class I antigens by PLC-PRF-5 cells. 246 98

Studies on the quantitative expression of the Major Histocompatibility Complex (MCH) in hepatocytes chronically infected by Hepatitis B Virus (HBV) report that an increased expression of these antigens could be related to a good immunological response. In the present work we analyze the expression of the MCH antigens in cryostatic sections of liver biopsies taken from subjects (19 children) with various forms of HBsAg positive chronic hepatitis. A high expression of HLA class I antigens and a high degree of hepatocyte necrosis was evident in Chronic Active Hepatitis (CAH) and Chronic Lobular Hepatitis (CLH). On the contrary, subjects with histological diagnosis of Chronic Persistent Hepatitis (CPH) showed a low expression of such antigens. There was however, the difference that in subjects with high hepatic cytolysis and high expression of HLA class I antigens, serum HBV-DNA was clearly present in almost all the cases with CAH, but not detectable in all cases with CLH. The expression of HLA class II antigens and of Beta2 microglobulin was the same in all 19 cases. All cases with HBV-DNA positivity with high class I antigen expression had active hepatitis which seems to suggest that all attempts at viral clearance on the part of the immune system have been in vain. We hope our paper will be an additional parameter for evaluating the course of hepatitis during Interferon treatment.
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PMID:Different expression of HLA class I antigens in liver of children with chronic hepatitis B, evaluated by immunohistochemical method. 269 19


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