Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0019158 (hepatitis)
 30,205 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Little is understood of the anatomical fate of activated T lymphocytes and the consequences they have on the tissues into which they migrate. Previous work has suggested that damaged lymphocytes migrate to the liver. This study compares class I versus class II major histocompatibility complex (MHC)-restricted ovalbumin-specific T cell antigen receptor (TCR) transgenic mice to demonstrate that after in vivo activation with antigen the emergence of CD4(-)CD8(-)B220(+) T cells occurs more frequently from a CD8(+) precursor than from CD4(+) T cells. Furthermore, this change in phenotype is conferred only by the high affinity native peptide antigen and not by lower affinity peptide variants. After activation of CD8(+) cells with only the high affinity peptide, there is also a dramatically increased number of liver lymphocytes with accompanying extensive hepatocyte damage and elevation of serum aspartate transaminase. This was not observed in mice bearing a class II MHC-restricted TCR. The findings show that CD4(-)CD8(-)B220(+) T cells preferentially derive from a CD8(+) precursor after a high intensity TCR signal. After activation, T cells can migrate to the liver and induce hepatocyte damage, and thereby serve as a model of autoimmune hepatitis.
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PMID:Liver damage preferentially results from CD8(+) T cells triggered by high affinity peptide antigens. 974 33

Toxoplasmosis has gained particular attention in the AIDS era as the most common opportunistic encephalitis in HIV-infected patients. Since there are important parallels between the human and rodent infection, experimental murine toxoplasmosis is widely used to study the immune reactions to this protozoal parasite. Oral application of low-virulent Toxoplasma (T.) gondii cysts leads to a biphasic disease characterized by an acute, generalized phase followed by a chronic stage confined to the brain, where an encephalitis with persistence of the parasite develops. Immunity to T. gondii is T cell mediated, and there is increasing evidence for a critical role of cytokines for an effective immune response. In order to address the functional role of interferon (IFN)-gamma in toxoplasmosis, we took advantage of mice lacking the IFN-gamma-receptor. Inactivation of the IFN-gamma-receptor rendered mice highly susceptible to T. gondii, and they died of a fulminant acute toxoplasmosis. Among the various organs affected, hepatitis was severe enough to cause death. In contrast to wild type animals, IFN-gamma-receptor-deficient mice were unable to activate their macrophages as evidenced by a lack of major histocompatibility complex (MHC) class II antigen induction and the absence of an upregulation of tumor necrosis factor (TNF)-alpha and inducible nitric oxide synthase (iNOS) mRNA transcripts, two macrophage effector molecules. These observations prompted the investigation of TNF- and TNF-receptor-mediated effects in toxoplasmosis by use of mice deficient in either the TNF-receptor type 1 (TNFR1) and/or the TNF-receptor type 2 (TNFR2). The lethal outcome of T. gondii-infected TNFR1/2- and TNFR1-deficient mice, but not of TNFR2-deficient and wild type animals, illustrated the important role of TNF-alpha and TNFR1-mediated signalling, respectively, in this infection. Histopathology attributed death of TNFR1- and TNFR1/2-deficient mice to a severe, necrotizing encephalitis. Unrestricted intracerebral parasite replication in these strains was associated with reduced numbers of iNOS+ leukocytes and a lack of iNOS mRNA induction in their brains as compared to resistant wild type and TNFR2-deficient mice. To precisely identify the cellular sources of cytokines in the brain, flow cytometry of leukocytes isolated from the brain, in situ hybridization, immunohistochemistry and RT-PCR analysis of cytokine mRNA transcripts of magnetically purified leukocyte populations were performed. These studies disclosed that both CD4+, CD8+ T lymphocytes and macrophages recruited to the brain as well as resident cell populations of the CNS including neurons, astrocytes and microglia contributed to the intracerebral cytokine synthesis. Each population was characterized by a specific cytokine pattern. Interestingly, activation of brain cells is a hallmark of Toxoplasma encephalitis. The marked induction of a variety of immunologically important cell surface molecules as MHC class I and II antigens, cell adhesion molecules and their ligands on microglia points to a particular important role of this cell type for the immune response to T. gondii, since the expression of these molecules is a prerequisite for cellular interactions with T cells. The observation of a prominent interleukin (IL)-10 production in the T. gondii-infected brain initiated studies addressing the function of this powerful immunosuppressive mediator in chronic Toxoplasma encephalitis. Neutralization experiments revealed that IL-10 facilitates persistence of the parasite in the brain by downregulating the intracerebral immune response. On the other hand, IL-10 may exert a regulatory role and may be necessary to prevent immunopathological effects of an uncontrolled immune response. In conclusion, these studies demonstrate the important role of the cytokines IFN-gamma and TNF-alpha and their receptors, respectively, for an effective control of T. gondii. In the CNS, the target organ of the parasite, a
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PMID:[Rudolf-Virchow Prize 1998. Award lecture. Toxoplasmosis: a model infection for studying systemic and intracerebral immune reactions]. 1009 13

Genetic involvement in type 1 autoimmune hepatitis (AIH) is indicated by a marked female preponderance and strong, well-established, human leukocyte antigen (HLA) associations. These associations, however, are not universal and a number of genes outside the major histocompatibility complex may also play a role in susceptibility to type 1 AIH. Prime candidates at present are those polymorphic genes encoding the proinflammatory and immunoregulatory cytokines. The aim of this study was to investigate, for the first time, 2 members of the interleukin-1 (IL-1) family (IL-1B and IL-1RN), 3 polymorphic sites in the interleukin-10 (IL-10) gene promoter (positions -1082, -819, and -592), and 2 polymorphisms in the tumor necrosis factor-alpha (TNF-alpha) promoter (positions -308 and -238) in type 1 AIH. The study was performed on 2 independently collected DNA banks, each with appropriate controls, and throughout the analysis associations described in the first set were confirmed in the second set. Standard polymerase chain reaction (PCR)-based genotyping techniques were used. Overall there were no significant differences in the distributions of the IL-1B and IL-10 alleles, genotypes, or haplotypes in either study set. In contrast we report a significant association between type 1 AIH and TNF*2 (first set: 34% of controls vs. 49% of patients, Pc =.014 and second set: 26% vs. 56%, P =.00008). However, TNF*2 is found in strong linkage disequilibrium with the HLA A1-B8-DR3 haplotype and stratification analysis indicates that the association with TNF*2 is interdependent with HLA DRB1*0301. This is an indication that there is more than one susceptibility allele for type 1 AIH on chromosome 6p21.3.
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PMID:Frequency and nature of cytokine gene polymorphisms in type 1 autoimmune hepatitis. 1049 33

The aim of this study was to compare major histocompatibility complex (MHC) class II susceptibility to type 1 autoimmune hepatitis (AH) between children and adults of the same ethnic group. HLA-DRB1, HLA-DRB3, HLA-DQA1, and HLA-DQB1 gene subtypes were examined by high resolution oligonucleotide typing in 122 pediatric (PAH) and 84 adult (AAH) patients and in 208 controls. In children, HLA-DRB1*1301 was the primary susceptibility allele (66.4% patients vs. 10.6% controls, relative risk [RR] = 16.3, Pc < 10(-24)) whereas HLA-DRB1*1302, which differs from HLA-DRB1*1301 by only 1 amino acid, appeared to be protective. The exclusion of individuals with HLA-DRB1*1301 from control and pediatric patients allowed us to find a secondary association of PAH with HLA-DRB1*0301. Possession of HLA-DRB1*1301, however, was associated with a lower therapeutic response rate. Analysis of peptide binding pocket residues indicated that Tyr 10, Ser 11, Ser 13, and Val 86 in the class II beta chain were present in 85% of patients compared with 37% of controls, suggesting that a high proportion of AH susceptibility is attributable to these residues (etiologic fraction [EF] = 76%). In contrast to the class II associations in children, AAH was associated with HLA-DRB1*0405 (RR = 10.4, Pc <.005) but not with HLA-DRB1*1301 or HLA-DRB1*0301. In addition, HLA-DR4 with the class I gene, HLA-A11, appeared synergistic in predisposing AAH patients to develop extra-hepatic autoimmune (AI) manifestations (odds ratio [OR] = 104.9, Pc < 10(-4)). Concomitant differences in autoantibody profiles were also observed in PAH versus AAH: smooth muscle antibodies (SMA) were most prevalent in PAH but antinuclear antibodies were most prevalent in AAH (P =.003). This study therefore reveals that different HLA-DRB1 allotypes confer susceptibility to AH in children and adults and raises the possibility that PAH and AAH may be triggered by different factors.
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PMID:Pediatric and adult forms of type I autoimmune hepatitis in Argentina: evidence for differential genetic predisposition. 1057 14

Woodchuck hepatitis virus (WHV), similar to human hepatitis B virus, causes acute liver inflammation that can progress to chronic hepatitis and hepatocellular carcinoma. WHV also invades cells of the host lymphatic system, where it persists for life. We report here that acute and chronic hepadnavirus hepatitis is characterized by a profound difference in the expression of class I major histocompatibility complex (MHC) molecules on the surface of infected hepatocytes and, notably, lymphoid cells. While acute WHV infection is accompanied by the enhanced hepatocyte surface presentation of class I MHC antigen and upregulated transcription of the relevant hepatic genes, inhibition of class I antigen display on liver cells is a uniform hallmark of chronic WHV infection. This inhibition in chronic hepatitis occurs despite augmented (as in acute infection) expression of hepatic genes for class I MHC heavy chain, beta(2)-microglobulin, and transporters associated with antigen processing (TAP1 and TAP2). Further, the class I antigen inhibition is not related to the histological severity of hepatocellular injury, the extent of lymphocytic infiltrations, the level of intrahepatic gamma interferon induction, or the hepatic WHV load. Importantly, the antigen expression is also inhibited on organ lymphoid cells of chronically infected hosts. The results obtained in this study demonstrate that the defective presentation of class I MHC molecules on cells supporting persistent WHV replication is due to viral posttranscriptional interference. This event may diminish the susceptibility of infected hepatocytes to virus-specific T-cell-mediated elimination, hinder virus clearance, and deregulate the class I MHC-dependent functions of the host immune system. This multifarious effect could be critical for perpetuation of liver damage and evasion of the antiviral immunological surveillance in chronic infection and therefore could be supportive of hepadnavirus persistence.
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PMID:Posttranscriptional inhibition of class I major histocompatibility complex presentation on hepatocytes and lymphoid cells in chronic woodchuck hepatitis virus infection. 1077 84

The pathogenic mechanisms involved in viral hepatitis are not completely understood. Evidence suggests that the pathology associated with hepatitis C virus (HCV) and hepatitis B virus (HBV) infections are a result of the immune response in the liver to these viruses. The livers of patients with viral hepatitis have been shown to contain elevated numbers of T cells expressing the gamma/delta form of the T-cell receptor for antigen (TCRgammadelta). In this study, we investigated whether liver biopsy specimens obtained from individuals with viral (HCV and/or HBV) or nonviral hepatitis contained TCRgammadelta(+) T cells that could be expanded in vitro by cytokines. A high percentage of liver biopsy specimens obtained from HCV- and/or HBV-infected individuals contained high numbers of TCRgammadelta(+) T cells. In contrast, T-cell lines generated from liver biopsy tissues obtained from individuals with nonviral hepatitis or from normal controls had no preferential expansion of TCRgammadelta(+) T cells. Liver TCRgammadelta(+) T-cell lines from HCV-infected individuals had high levels of non-major histocompatibility complex (MHC)-restricted cytotoxic activity against different targets including primary hepatocytes and produced interferon gamma (IFN-gamma), tumor necrosis factor alpha (TNF-alpha), and interleukin 8 (IL-8) following activation by anti-CD3. Surprisingly, none of these liver TCRgammadelta(+) T-cell lines could recognize any of the structural or nonstructural proteins of HCV and had no cytotoxic activity against cells infected with recombinant vaccinia viruses expressing different HCV proteins. However, the crosslinking of CD81, which has been shown to bind HCV particles and E2, resulted in significant levels of IFN-gamma and TNF-alpha production by liver TCRgammadelta(+) T cells. These results suggest that TCRgammadelta(+) T cells may play a role in the liver pathology of HCV infections.
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PMID:Characterization of liver T-cell receptor gammadelta T cells obtained from individuals chronically infected with hepatitis C virus (HCV): evidence for these T cells playing a role in the liver pathology associated with HCV infections. 1134 61

Demyelination in multiple sclerosis and in animal models is associated with infiltrating CD8+ and CD4+ T cells. Although oligodendrocytes and axons are damaged in these diseases, the roles T cells play in the demyelination process are not completely understood. Antigen-specific CD8+ T cell lysis of target cells is dependent on interactions between the T cell receptor and major histocompatibility complex (MHC) class I-peptide complexes on the target cell. In the normal central nervous system, expression of MHC molecules is very low but often increases during inflammation. We set out to precisely define which central nervous system cells express MHC molecules in vivo during infection with a strain of murine hepatitis virus that causes a chronic, inflammatory demyelinating disease. Using double immunofluorescence labeling, we show that during acute infection with murine hepatitis virus, MHC class I is expressed in vivo by oligodendrocytes, neurons, microglia, and endothelia, and MHC class II is expressed only by microglia. These data indicate that oligodendrocytes and neurons have the potential to present antigen to T cells and thus be damaged by direct antigen-specific interactions with CD8+ T lymphocytes.
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PMID:In vivo expression of major histocompatibility complex molecules on oligodendrocytes and neurons during viral infection. 1158 48

Autoimmune hepatitis is associated with genes located in the major histocompatibility complex. The search for genes at other loci that may play a role in disease susceptibility and/or severity is an area of active investigation in autoimmune liver diseases. Genes for glutathione-S-transferases, enzymes that are widely distributed and collectively metabolize carcinogens, pollutants, drugs, and a broad spectrum of harmful, foreign compounds have been associated with liver disease. The objective of this study was to search for a relationship between the glutathione-S-transferase Ml null genotype and autoimmune hepatitis using polymerase chain reaction analysis. The findings indicate that the frequency of the null genotype is not increased in patients with autoimmune hepatitis when compared to control subjects. These results coupled with similar ones in primary biliary cirrhosis do not support a role for this mutation in autoimmune liver disease.
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PMID:Glutathione-S-Transferase M1 null genotype in autoimmune hepatitis. 1168 May 79

Natural T (NT) lymphocytes recognize infected cells or microbial compounds without the classical genetic restriction of polymorphic major histocompatibility complex (MHC) molecules. This innate recognition pathway results in a broad and rapid antimicrobial response that may be critical for controlling the spread of intracellular pathogens, requiring the elimination of the infecting agent from both extracellular spaces and host cells. NT cells are mainly composed of alphabeta and gammadelta T lymphocytes that express natural killer (NK) receptors and recognize preferentially various nonpeptidic antigens. Similar to NK cells, NT lymphocytes can 'see' and kill target cells deficient in the expression of one or more MHC class I molecules. NT cells expressing the alphabeta TCR can recognize lipid and lipoglycan antigens presented in the context of nonpolymorphic CD1 molecules, whereas phosphocarbohydrates and akilamines induce constitutive responses in most Vgamma9Vdelta2 NT lymphocytes. The remaining fraction of gammadelta NT cells express the Vdelta1 chain associated with different Vgamma-chains and may directly recognize self-antigens such as MICA, MICB or CD1 molecules. It is possible that NT lymphocytes may play two opposite roles during intracellular infections. First, in the acute phase, they may be critical for the initiation of pathogen elimination. Second, in the chronic phase, NT cells may be dangerous, if their potential autoreactivity is not well controlled. It is conceivable that novel strategies of immune intervention against emerging and re-emerging intracellular pathogens, such as human immundeficiency virus (HIV), hepatitis-C virus (HCV) and Mycobacterium tuberculosis (MTB) may involve the control of NT cell activation/anergy by (nonpeptidic) immunoregulatory drugs.
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PMID:Natural T cell immunity to intracellular pathogens and nonpeptidic immunoregulatory drugs. 1189 39

Autoimmune hepatitis has been described as recurrent or de novo disease after transplantation. The legitimacy of these diagnoses and the bases for their occurrence are unknown. To better understand these aspects of allograft dysfunction, the purported pathogenic mechanisms of classical autoimmune hepatitis were reviewed and extrapolated to recurrent and de novo disease after transplantation. Loss of self-tolerance may relate to defects in the negative selection of autoreactive immunocytes and the clonal expansion of promiscuous lymphocytes that are cross-reactive to homologous antigens (molecular mimicry). Repopulation of the allograft with recipient antigen-presenting cells and the presence of primed promiscuous cytotoxic T cells within the recipient are likely factors for recurrent disease. Targets may be the same peptides that triggered the original disease, donor-derived class II antigens of the major histocompatibility complex, or homologous antigens associated with unidentified hepatotrophic viruses. De novo disease is probably due to similar mechanisms, but its predilection for children suggests that thymic dysfunction associated with cyclosporine treatment may be a factor. Corticosteroid therapy is effective in each condition. In conclusion, recurrent and de novo autoimmune hepatitis after transplantation are examples of self-intolerance. The mechanisms that perturb immunologic homeostasis in this human model of the classical disease must be studied more rigorously.
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PMID:Autoimmune hepatitis after liver transplantation and other lessons of self-intolerance. 1203 80


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