UMLS:C0019158 - FACTA Search

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Query: UMLS:C0019158 (hepatitis)
30,205 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The asialoglycoprotein receptor (ASGP-R) on mammalian hepatocytes provides a unique means for the development of liver-specific carriers, such as liposomes, recombinant lipoproteins, and polymers for drug or gene delivery to the liver, especially to hepatocytes. The abundant receptors on the cells specifically recognize ligands with terminal galactose or N-acetylgalactosamine residues, and endocytose the ligands for an intracellular degradation process. The use of its natural ligand, i.e. asialofetuin, or synthetic ligands with galactosylated or lactosylated residues, such as galactosylated cholesterol, glycolipids, or galactosylated polymers has achieved significant targeting efficacy to the liver. There are several examples of successful targeted therapy for acute liver injury with asialofetuin-labeled and vitamin E-associated liposomes or with a caspase inhibitor loaded in sugar-carrying polymer particles, as well as for the delivery of a new antiviral agent, 9-(2-phosphonylmethoxyethyl)adenine. Liposome-mediated gene delivery to the liver is more difficult than to other organs, such as to lungs. It is still in its infancy due to difficulties in solving general issues, such as the circulatory stability of liposome-DNA complexes, and lysosomal or endosomal degradation of plasmid DNA. In spite of these existing concerns, several new approaches offer some reason for optimism, for example; intravenous injection of asialofetuin- or galactosylated cholesterol-labeled cationic liposomes has led to high transgene expression in the liver. In addition, specific antisense oligonucleotides against woodchuck hepatitis viruses incorporated into sialoorosomucoid-poly-L-lysine significantly inhibited viral replication in the liver. Finally, galactosylated polymers are promising for gene delivery, but require further studies to verify their potential applications.
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PMID:Targeting hepatocytes for drug and gene delivery: emerging novel approaches and applications. 1186 Dec 24

Autoimmune hepatitis (AIH) is a disease of unknown aetiology characterised by hypergammaglobulinaemia, non-organ and liver-related autoantibodies, association with HLA-DR3 or DR4 and a favourable response to immunosuppression. The current classification of AIH and the several autoantibodies/target autoantigens found in this disease are reported. The importance of these markers in the differential diagnosis and the study of pathogenesis of AIH is also given. AIH is subdivided into two major types: AIH type 1 (AIH-1) and AIH type 2 (AIH-2). AIH-1 is characterised by the detection of smooth muscle autoantibodies (SMA) and/or antinuclear antibodies (ANA). Antineutrophil cytoplasmic autoantibodies (ANCA), in most cases of perinuclear pattern (p-ANCA), by the indirect immunofluorescence assay, antibodies against the asialoglycoprotein receptor (anti-ASGP-R) and antibodies to soluble liver antigens or liver-pancreas (anti-SLA/LP) may be useful for the identification of individuals who are seronegative for ANA/SMA. AIH-2 is characterised by the presence of specific autoantibodies against liver and kidney microsomal antigens (anti-LKM type 1 or infrequently anti-LKM type 3) and/or autoantibodies against liver cytosol 1 antigen (anti-LC1). Anti-LKM-1 and anti-LKM-3 autoantibodies are also detected in some patients with chronic hepatitis C (HCV) and chronic hepatitis D (HDV). For these reasons, the distinction between AIH and chronic viral hepatitis is of particular importance. Cytochrome P450 2D6 (CYP2D6) is the major target autoantigen of anti-LKM-1 autoantibodies in both conditions (AIH-2 and HCV infection). Recent data have demonstrated the expression of CYP2D6 on the surface of hepatocytes, suggesting a pathogenetic role of anti-LKM-1 autoantibodies in liver injury. Family 1 of UDP-glycuronosyltransferases has been identified as the target autoantigen of anti-LKM-3. The molecular target of anti-SLA/LP autoantibodies has been identified recently as a 50 kDa protein with unknown structure and function. A liver-specific enzyme, the formiminotransferase cyclodeaminase, was identified as the target autoantigen of anti-LC1 autoantibodies. Anti-ASGP-R and anti-LC1 autoantibodies appear to correlate better with the severity of AIH and the response to treatment. The latter may suggest a pathogenic role of these autoantibodies in the hepatocellular damage in AIH. In general, however, autoantibodies should not be used to monitor treatment or to predict AIH activity or outcome. Finally, current knowledge concerning a specific form of AIH that may develop in some patients with a rare genetic syndrome, the autoimmune polyglandular syndrome type-1 (APS-1), is also discussed. Autoantibodies against liver microsomes (anti-LM) are the specific autoantibodies found in AIH as a disease component of APS-1. However, anti-LM autoantibodies have also been described in cases of dihydralazine-induced hepatitis. Cytochrome P450 1A2 has been identified as the target autoantigen of anti-LM autoantibodies in both disease entities.
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PMID:Autoantibodies and defined target autoantigens in autoimmune hepatitis: an overview. 1214 8

Our experience regarding serum soluble interleukin-2 receptor (sIL-2R) measurement as a marker of lymphocyte activation consists of patients with autoimmune disease: 37 with systemic lupus erythematosus (SLE), 23 with autoimmune hepatitis (AIH), 74 with inflammatory bowel disease and six with Wegener's granulomatosis (WG). The influence of immunosuppressive therapy has also been assessed. Serum sIL-2R in SLE is significantly higher than in healthy controls and good correlation is found between sIL-2R and disease activity. Severity of kidney inflammation in lupus nephritis can be reflected by the increased excretion of sIL-2R. It was found that sIL-2R level significantly falls when the disease becomes clinically inactive after immunosuppressive therapy, but in many cases (up to 50%) it does not reach normal levels. The last finding suggests that lymphocyte activation may still be present even though the disease is considered inactive under clinical criteria and support the need of prolonged immunosuppression after the first signs of remission. In AIH the serum levels of sIL-2R are elevated in all patients with active disease; all cases with "highly active" disease have significantly higher concentrations than patients with "mild activity". A good correlation has been demonstrated between elevated serum sIL-2R values and anti-asialoglycoprotein receptor (ASGPR) titer (the specific marker of AIH). The follow-up study showed a significant decrease of both sIL-2R levels and anti-ASGPR titer after 3-9 month immunosuppressive therapy. The findings support that sIL-2R and anti-ASGPR titer could serve as reliable humoral markers for disease-specific activity. Compared with inactive ulcerative colitis (UC) and Crohn's disease (CD), significantly higher levels of sIL-2R were present in the serum of patients with active disease, and in inactive disease than in healthy age-matched controls. Methotrexate (MTX) therapy of patients with refractory UC resulted in sIL-2R decrease at the end of therapeutic period (20 i.m. injections of once a week 25 mg), good responders showing > 50% decrease even at 5-7 weeks of treatment. Serum sIL-2R is elevated in all six patients with WG. Contrary to anti-neutrophil cytoplasmic antibodies (ANCA), sIL-2R remains elevated above cut-off for normal range, despite clinical improvement following immunosuppressive treatment. The last observation suggests that serum sIL-2R is not a good measure of the disease activity and argue for the need of longer immunosuppressive therapy just after the first days of clinical remission.
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PMID:Serum soluble IL-2 receptor as a marker of lymphocyte activation in some autoimmune diseases. Effect of immunosuppressive therapy. 1216 73

No longitudinal study has investigated whether autoantibody titres and serum IgG levels correlate with disease activity in autoimmune liver disease. To determine this, we investigated prospectively 19 patients on 254 occasions between 10 months to 5 years from diagnosis. Nine had anti-nuclear and/or anti-smooth muscle antibody (ANA/SMA) positive autoimmune hepatitis (type 1 AIH), 5 liver kidney microsomal type 1 (LKM-1) positive AIH (type 2 AIH) and 5 ANA/SMA positive autoimmune sclerosing cholangitis (ASC). Correlation between IgG levels, titres of ANA, SMA and LKM-1 and levels of the organ specific autoantibodies anti-liver specific protein (anti-LSP), and anti-asialoglycoprotein receptor (anti-ASGPR) with biochemical evidence of disease activity, as measured by serum aspartate amino transferase (AST) levels, was sought during the course of the disease. AST levels correlated with levels of anti-LSP, anti-ASGPR and IgG in type 1 and 2 AIH, but not in ASC. Positive correlation with AST was also observed for LKM-1 titres in type 2 AIH and for SMA titres in type 1 AIH, but not in ASC. In both AIH and ASC, AST levels correlated with the T cell-dependent immune responses anti rubella IgG and anti tetanus toxoid IgG, but not with the T cell-independent IgG2 response to pneumococcal capsular polysaccaride. Our results indicate that measurement of organ and non-organ specific autoantibodies and IgG levels may be used to monitor disease activity in AIH.
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PMID:Organ and non-organ specific autoantibody titres and IgG levels as markers of disease activity: a longitudinal study in childhood autoimmune liver disease. 1276 77

Viral hepatitis is frequently accompanied by humoral autoimmune responses toward both organ-nonspecific and liver-specific antigens, but contribution of these reactivities to liver injury remains unrecognized. Infection with woodchuck hepatitis virus (WHV) has been identified as a potent inducer of autoantibodies against asialoglycoprotein receptor (anti-ASGPR), a molecule essentially unique to hepatocytes that mediates clearance of desialylated serum proteins. In this study, we applied the WHV-woodchuck model of hepatitis B to examine the effect of experimentally elicited anti-ASGPR on the progression and the severity of WHV hepatitis in initially healthy animals immunized with the receptor and then infected with WHV and in woodchucks with ongoing chronic WHV hepatitis. The results implied that the induction of anti-ASGPR prior to WHV infection tends to modulate acute viral hepatitis toward chronic outcome and, in animals with established chronic WHV infection, exacerbates histologic severity of liver lesions. The findings also suggest that the liver compromised by chronic hepadnavirus infection might be prone to anti-ASGPR-directed complement-mediated hepatocellular injury and that this is associated with formation of the ASGPR-anti-ASGPR immune complexes on hepatocyte surface. In conclusion, the host's immune response mounted against a hepatocyte-specific autoantigen may modulate both the outcome and the severity of liver injury in viral hepatitis.
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PMID:Modulation of the outcome and severity of hepadnaviral hepatitis in woodchucks by antibodies to hepatic asialoglycoprotein receptor. 1293 89

The liver is continuously exposed to a large antigenic load that includes pathogens, toxins, tumor cells and dietary antigens. A loss of tolerance against its own antigens may result in autoimmune hepatitis (AIH). The current paradigm holds that the disease is the result of self-perpetuating autoimmune process triggered by yet unknown factors (infections, chemicals, drugs) in a genetically susceptible host. To date, several putative hepatocellular surface antigens have been identified: P450-IID6 (recognized by the anti-LKM-1 autoantibodies) a membrane bound asialoglycoprotein receptor (a liver-specific membrane protein), a cytosolic UGA-suppressor tRNA associated protein (recognized by anti-SMA and anti-LP antibodies) and argininosuccinate lysate and formiminotransferase cyclodeaminase (recognized by ant-LC1 antibodies). In contrast to other chronic hepatitides patients with AIH display significant T cell hypereactivity to autologous liver antigens. Tissue injury seems to be mediated by CD4+ or CD8+ T cells and/or by antibody-dependent cell mediated cytotoxicity.
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PMID:Autoimmune hepatitis: evolving concepts. 1511 Feb 33

Autoimmune hepatitis (AIH) is a chronic necroinflammatory disease of the liver characterized by hypergammaglobulinemia, characteristic autoantibodies, association with HLA DR3 or DR4 and a favorable response to immunosuppressive treatment. The etiology is unknown. The detection of non-organ and liver-related autoantibodies remains the hallmark for the diagnosis of the disease in the absence of viral, metabolic, genetic, and toxic etiology of chronic hepatitis or hepatic injury. The current classification of AIH and the several autoantibodies/target-autoantigens found in this disease are reported. Current aspects on the significance of these markers in the differential diagnosis and the study of pathogenesis of AIH are also stated. AIH is subdivided into two major types; AIH type 1 (AIH-1) and type 2 (AIH-2). AIH-1 is characterized by the detection of smooth muscle autoantibodies (SMA) and/or antinuclear antibodies (ANA). Determination of antineutrophil cytoplasmic autoantibodies (ANCA), antibodies against the asialoglycoprotein receptor (anti-ASGP-R) and antibodies against to soluble liver antigens or liver-pancreas (anti-SLA/LP) may be useful for the identification of patients who are seronegative for ANA/SMA. AIH-2 is characterized by the presence of specific autoantibodies against liver and kidney microsomal antigens (anti-LKM type 1 or infrequently anti-LKM type 3) and/or autoantibodies against liver cytosol 1 antigen (anti-LC1). Anti-LKM-1 and anti-LKM-3 autoantibodies are also detected in some patients with chronic hepatitis C (HCV) and chronic hepatitis D (HDV). Cytochrome P450 2D6 (CYP2D6) has been documented as the major target-autoantigen of anti-LKM-1 autoantibodies in both AIH-2 and HCV infection. Recent convincing data demonstrated the expression of CYP2D6 on the surface of hepatocytes suggesting a pathogenetic role of anti-LKM-1 autoantibodies for the liver damage. Family 1 of UDP-glycuronosyltransferases has been identified as the target-autoantigen of anti-LKM-3. For these reasons the distinction between AIH and chronic viral hepatitis (especially of HCV) is of particular importance. Recently, the molecular target of anti-SLA/LP and anti-LC1 autoantibodies were identified as a 50 kDa UGA-suppressor tRNA-associated protein and a liver specific enzyme, the formiminotransferase cyclodeaminase, respectively. Anti-ASGP-R and anti-LC1 autoantibodies appear to correlate closely with disease severity and response to treatment suggesting a pathogenetic role of these autoantibodies for the hepatocellular injury. In general however, autoantibodies should not be used to monitor treatment, predict AIH activity or outcome. Finally, the current aspects on a specific form of AIH that may develop in some patients with a rare genetic syndrome, the autoimmune polyendocrinopathy-candidiasis-ectodermal dystrophy syndrome (APECED) are also given. Autoantibodies against liver microsomes (anti-LM) are the specific autoantibodies detected in AIH as a disease component of APECED but also in cases of dihydralazine-induced hepatitis. Cytochrome P450 1A2 has been identified as the target-autoantigen of anti-LM autoantibodies in both APECED-related AIH and dihydralazine-induced hepatitis. The latter may indicate that similar autoimmune pathogenetic mechanisms can lead to liver injury in susceptible individuals irrespective of the primary defect. Characterization of the autoantigen-autoantibody repertoire continues to be an attractive and important tool to get access to the correct diagnosis and to gain insight into the as yet unresolved mystery of how hepatic tolerance is given up and AIH ensues.
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PMID:Autoantibodies and autoantigens in autoimmune hepatitis: important tools in clinical practice and to study pathogenesis of the disease. 1567 7

The intrinsic liver tropism of liposomes can be augmented by the addition of targeting features such as the incorporation of hepatotropic elements of the hepatitis viruses. Hepatitis B virus is known to infect hepatocytes after viremia by asialoglycoprotein receptor mediated uptake. However, the specificity of hepatitis B virus surface protein (HBsAg) towards hepatocytes has confronting reports. In the present study, we evaluated the functional ability of HBsAg to be employed as a ligand for targeting hepatocytes. We prepared (14)C labeled small unilamellar vesicles (SUVs) composed of egg PC/Cholesterol/N-glutarylphosphatidylethanolamine (NGPE) in a 60:30:10 molar ratio. HBsAg was covalently linked to SUVs using a water-soluble carbodiimide (EDC) mediated conjugation with NGPE. In vitro cell binding and uptake studies revealed that bioprotein docked carrier system was efficiently taken up by HepG2 cells by the receptor mediated endocytosis. The biodistribution behaviour of plain and HBsAg coated liposomes was also examined followed by intravenous injection. The study revealed that almost 75% of the radioactivity was recovered in the liver after 4 h of injection that was nearly three-fold greater in magnitude than the plain liposomes. Further, fractionation of liver into liver parenchymal cells (PC) and non-parenchymal cells confirmed the preferential localization of the HBsAg coated liposomal carrier in the parenchymal cells.
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PMID:Hepatitis B surface protein docked vesicular carrier for site specific delivery to liver. 1627 55

The diagnostic criteria for autoimmune hepatitis have been codified, and a scoring system can quantify the strength of the diagnosis. Centrilobular (zone 3) necrosis signifies acute disease, and severe acute and fulminant presentations of autoimmune hepatitis are recognized. The absence of symptoms at presentation may identify some patients who do not require treatment, but therapeutic decisions must be based on disease activity not symptoms, especially since 26-70% of asymptomatic patients become symptomatic. Elderly patients have more advanced disease at presentation, but they respond well to treatment. Antibodies to soluble liver antigen/liver pancreas, asialoglycoprotein receptor, actin, and liver cytosol type 1 have prognostic value. Molecular mimicry between viral and self-antigens is the likely basis for the autoimmune response. Susceptibility alleles optimize antigen presentation. Polymorphisms influence immunocyte activation, counter-regulatory actions within the cytokine milieu, and apoptotic pathways for hepatocyte and immunocyte death. Perturbations in the populations of T regulatory cells and natural killer T cells disrupt immune homeostasis. Cyclosporine, mycophenolate mofetil, and budesonide afford new treatment opportunities, and molecular interventions at critical pathogenic pathways are feasible, especially within the cytokine network. Confident animal models of the human disease and a collaborative network of clinical investigators are the requisites for progress.
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PMID:Evolving concepts in the diagnosis, pathogenesis and treatment of autoimmune hepatitis. 1741 44

The objective of this study is to express the carbohydrate recognition domain (CRD) of the asialoglycoprotein receptor (ASGPR) H1 and H2 subunits of Marmota himalayan in vitro, and develop polyclonal antibodies against the recombinant proteins. RT-PCR was used to amplify ASGPR CRDH1 and CRDH2 from the liver tissue of Marmota himalayan. The products of amplification were subcloned into prokaryotic expression vector pRSET-B, and expressed in E.coli BL21(DE3)plysS. The recombinant proteins were purified using Ni-NTA spin column. The purified proteins were inoculated into BALB/c mice to develop polyclonal antibodies. The sensitivity and specificity of antibodies were evaluated by enzyme-linked immunosorbent assay (ELISA), Western blotting and immunohistochemical staining (IHC). The polyclonal antibodies showed high sensitivity and specificity against both denaturated and native ASGPR proteins. We successfully amplified and expressed the ASGPR CRDs of Marmota himalayan. The nucleic sequences of ASGPR CRDH1 and CRDH2 of Marmota himalayan have been submitted to Genbank and the sequence ID are DQ 845465 and DQ845466, respectively. The proteins and antibodies prepared can be used for targeting gene therapy in a new animal model-Marmota Himalayan-for the research of infectious diseases of hepatitis viruses and liver cancer treatment.
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PMID:Cloning, expression and polyclonal antibody preparation of the asialoglycoprotein receptor of Marmota himalayan. 1782 98

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