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

Previous studies have shown that antibodies in the sera of halothane hepatitis patients recognize trifluoroacetylated liver microsomal proteins (neoantigens) of 100 kDa, 76 kDa, 59 kDa, 57 kDa, and 54 kDa. In the present investigation, factors that might affect the level of expression of the neoantigens were investigated. A study of the time course of neoantigen expression in halothane-treated rats revealed that the 100 kDa, 76 kDa, 59 kDa, and 57 kDa neoantigens were longer-lived than the 54 kDa neoantigen and could be detected in the liver up to a week after the administration of halothane. Pretreatment of rats with isoniazid, which is known to induce cytochrome P-450 IIE1, appeared to increase the expression of each of the neoantigens, whereas inducers of several other forms of cytochrome P-450 had either very little effect or decreased the expression of several of the neoantigens. Female rats appeared to express some of the neoantigens at a higher level than that found in males. Examination of the organ distribution of the trifluoroacetylated neoantigens showed that, of the tissues examined, only the liver contained appreciable levels of the neoantigens. These results indicate that the level of expression and possibly the immunogenicity of the trifluoroacetylated liver neoantigens may be influenced by their half-lives and the repertoire of cytochrome P-450 present in the liver.
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PMID:Factors affecting the expression of trifluoroacetylated liver microsomal protein neoantigens in rats treated with halothane. 198 38

Antibodies against cytochrome P-450 are found in some children with autoimmune hepatitis (antiliver/kidney microsome 1) and in patients with ticrynafen hepatitis (antiliver/kidney microsome 2). For an immune reaction against cytochrome P-450 to possibly destroy the hepatocytes, one must assume that cytochrome P-450 is present on the plasma membrane surface of hepatocytes. In a first series of experiments, plasma membranes were prepared with a technique based on the electrostatic attachment of isolated hepatocytes to polyethyleneimine-coated beads. After vortexing, beads were coated with a very pure plasma membrane fraction. Microsomal contamination, judged from the specific activities of glucose-6-phosphatase or NADH-cytochrome c reductase, was less than 1%. Nevertheless, the specific content (per milligram of protein) of CO-binding cytochrome P-450 was 20% of that in microsomes; the specific benzo(a)pyrene hydroxylase activity was 25%, and ethoxycoumarin deethylase 11%. Immunoblots showed the presence of cytochromes P-450 UT-A, UT-H, PB-B, ISF-G and PCN-E, the last three isoenzymes being inducible by, respectively, phenobarbital, 3-methylcholanthrene and dexamethasone. In a second series of experiments, nonpermeabilized isolated hepatocytes from untreated rats were incubated with anticytochrome P-450 antibodies. Immunofluorescence and immunoperoxidase staining confirmed the presence of cytochromes P-450 UT-A, PB-B and ISF-G on the membrane. In a last series of experiments, human antiliver-kidney microsomal 1 antibodies were found to react specifically with rat liver plasma membrane cytochrome P-450 UT-H (IID subfamily). We conclude that several cytochrome P-450 isoenzymes are present, active and inducible on the plasma membrane surface of hepatocytes. It is therefore conceivable that immunization against plasma membrane cytochrome P-450 might lead to the immunological destruction of hepatocytes in some patients.
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PMID:Presence of functional cytochrome P-450 on isolated rat hepatocyte plasma membrane. 211 12

The hydroxylamine and nitroso metabolites formed by N4-oxidation of sulfonamides are thought to be involved in the pathogenesis of idiosyncratic reactions to this class of drugs. Idiosyncratic reactions to sulfonamides are characterized by multisystemic toxicity, including hepatitis, nephritis, dermatitis, and blood dyscrasias (aplastic anemia, agranulocytosis). We have previously shown that cytochrome P-450 in the liver metabolizes sulfamethoxazole to its hydroxylamine metabolite. In this paper we report the N4-oxidation of sulfamethoxazole by activated monocytes and neutrophils (human and canine) to form sulfamethoxazole hydroxylamine and nitrosulfamethoxazole. The presumed nitroso intermediate was not detected. Purified myeloperoxidase and prostaglandin H synthase were also capable of mediating the oxidation of sulfamethoxazole. The present studies suggest that myeloperoxidase is responsible for the observed oxidation by phagocytic cells. Oxidation by neutrophils may play a role in agranulocytosis, and oxidation by monocytes may facilitate antigen presentation. Extrahepatic bioactivation of sulfonamides by peroxidases in phagocytic cells and other tissues may be important in determining the range of adverse reactions to sulfonamides that occur.
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PMID:Peroxidase-dependent oxidation of sulfonamides by monocytes and neutrophils from humans and dogs. 217 79

Severe hepatotoxicity from phenobarbital occurred in an infant boy who had a complicated illness with chronic bilateral subdural hematomas and sepsis. Skin rash began after 2 weeks of treatment, and signs of hepatocellular failure developed 3 weeks after phenobarbital had been started. Signs of severe liver disease included elevated aminotransferases, conjugated hyperbilirubinemia, significant coagulopathy, hepatosplenomegaly and ascites. Other features of this adverse drug reaction were unremitting fever, leukocytosis with eosinophilia and atypical lymphocytosis, and proteinuria. Sepsis, viral hepatitis, and metabolic liver disease were excluded. The child was on no other medication and had been previously well. In-vitro rechallenge of the patient's lymphocytes with cytochrome P-450 generated metabolites of phenobarbital showed extensive cytotoxicity compared to control. These data support the hypothesis that a defect in drug detoxification was responsible for the child's susceptibility to this drug hepatotoxicity.
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PMID:Phenobarbital hepatotoxicity in an 8-month-old infant. 233 96

Sera from patients with dihydralazine-induced hepatitis were shown to contain anti-liver microsomal autoantibodies (anti-LM) by indirect immunofluorescence. These anti-LM antibodies were different from anti-liver/kidney microsomes (anti-LKM) 1 or 2 autoantibodies which have been previously described. Sera recognized a single 53,000 = Mr polypeptide in human liver microsomes as judged by immunoblotting, and the target antigen was identified as cytochrome P-450IA2 (P-450IA2) by (a) comparison of immunoblotting patterns with anti-human P-450IA2 and anti-rat P-450IA2 and with five anti-LM sera, and (b) specific immunoinhibition of microsomal ethoxyresorufin and phenacetin O-deethylation activities (both P-450IA2 supported reactions) by anti-LM antibodies. Finally, purified human P-450IA2 was recognized by these anti-LM sera. The anti-LM antibodies are specific for the disease because none of the other antisera tested behaved in the same manner as anti-LM, even those from patients treated with dihydralazine and without hepatic disease. A possible role of P-450IA2 in the metabolism of dihydralazine was suggested by competitive inhibition of ethoxyresorufin-O-deethylase observed in microsomal incubations. Thus, a new example is presented in which a cytochrome P-450 may be a target for autoantibodies in drug-induced hepatitis.
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PMID:Anti-liver endoplasmic reticulum autoantibodies are directed against human cytochrome P-450IA2. A specific marker of dihydralazine-induced hepatitis. 234 20

The hepatoprotective agents silybinin, essentiale and eplir (the complex of phospholipids and caratinoids from the mud) prevent in D-galactosamine-induced intoxication of rats the development of hepatitis, hepatocyte necrosis, a decrease in hepatocytes of the activity of the enzymes of mitochondria and endoplasmic reticulum, labilization of lysosomes. These drugs stimulate D-galactosamine-suppressed antitoxic function of the liver: they increase the contents of RNA, cytochromes P-450, b5, the activity of amidopyrine-D-demethylase, hydroxylases of hexobarbital and aniline, improve the activity of the respiratory chain of microsomes, counteract inactivation of cytochrome P-450 into cytochrome P-420. Essentiale and eplir activate conjugation of xenobiotics with reduced glutathione.
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PMID:[The correction with hepatic protectors of structural metabolic disorders in the liver in D-galactosamine poisoning]. 236 52

LEC strain rats predisposed to hereditary hepatitis and liver cancer were examined for hepatic drug-metabolizing ability and the inducibility of chromosome damage by cyclophosphamide (CP) in somatic cells. Whereas the hepatic cytochrome P-450 contents and the activities of cytochrome P-450-catalyzed monooxygenases were lower in females than in males of both LEC and control LEA strains, male LEC rats exhibited significantly reduced cytochrome P-450 contents and monooxygenase activities compared with male LEA rats. When exposed to CP, a promutagen/procarcinogen requiring P-450-dependent metabolic activation, the frequencies of chromosome aberrations and sister-chromatid exchanges (SCEs) in bone marrow cells tended to be lower in females than in males of each strain and lower in LEC than in LEA rats of the same sex. In particular, the CP-induced SCEs were substantially lower in LEC rats. However, no such sex and strain differences were found in the SCE frequencies in regenerating hepatocytes of partially hepatectomized rats exposed to CP.
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PMID:Cytochrome P-450 and chromosome damage by cyclophosphamide in LEC strain rats predisposed to hereditary hepatitis and liver cancer. 238 46

Fructus Schizandrae (FS) is a well-known Chinese herb which has been widely used in ancient China. During recent decades, it has been found to be effective in viral and chemical induced hepatitis. In this paper, we report the studies on the chemical constituents and pharmacological actions of FS on mice liver. The results indicated that FS and its several components can mainly protect liver from injury induced by toxic substances such as CCl4; they have anti-oxidant activities against oxygen free radicals; FS and four components have inducing action on liver cytochrome P-450; they also promote certain anabolic metabolism such as serum protein biosynthesis and glycogenesis. All these activities would be of importance in the protection and repair of the injured liver cells. The clinical use of FS is also presented.
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PMID:Pharmacological actions and clinical use of fructus schizandrae. 251 53

Autoantibodies are important diagnostic markers for autoimmune type chronic active hepatitis (AI-CAH) and primary biliary cirrhosis (PBC). At least three subgroups of AI-CAH can be distinguished serologically. Antinuclear antibodies (ANA), smooth muscle antibodies (SMA), and liver membrane autoantibodies (LMA) characterize classical autoimmune type 'lupoid' hepatitis, while liver kidney microsomal (LKM) antibodies identify a second, and antibodies to a soluble liver antigen (anti-SLA), a third subgroup of AI-CAH. Patients with autoimmune type CAH in contrast to patients with virus-induced liver diseases profit from immunosuppressive therapy. PBC is characterized by disease-specific subtypes of antimitochondrial antibodies (AMA). Technical developments, like immunoblotting and molecular cloning, led to a better definition and characterization of autoantibody-antigen systems. Molecular cloning has been successfully applied to identify the main 70 kDa mitochondrial antigen in PBC. This and other mitochondrial autoantigens have been identified as enzymes: E2 component of pyruvate dehydrogenase (PDH-E2) and its component X, branched chain alpha-keto acid dehydrogenase (BCKD-E2), and 2-oxoglutarate dehydrogenase. LKM-1 antigen has been identified as cytochrome P-450 db1, a drug metabolizing enzyme with a known genetic polymorphism. These cloned hepatic autoantigens share some characteristics with other autoantigens: they are enzymes, autoantibodies react with active sites of these enzymes and the autoepitopes are highly conserved. After the identification of these autoepitopes, specific and sensitive diagnostic reagents will become available. B and T cell epitope mapping will help to elucidate whether these autoantibodies are just clinically valuable diagnostic markers or whether they contribute to the immunopathogenesis or help to identify the aetiological agents.
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PMID:Autoantibodies and antigens in liver diseases--updated. 268 96

Sera from 23 children with autoimmune chronic active hepatitis and positive for anti-liver-kidney-microsome antibody (LKMA), as defined by immunofluorescence, were analysed by Western blot (WB) and two-dimensional gel electrophoresis using rat liver microsomes as antigen, and by WB and dot-blot analysis with rat liver microsomal subfractions. Western blot analysis showed three patterns of reactivity: 13 sera recognized a 50 kD polypeptide, six sera a 66 kD polypeptide and four sera both of them. Two-dimensional gel electrophoresis, WB, and dot-blot analysis showed the 66 kD antigen to have a pI of 5.4 and to be located in the smooth domain of the endoplasmic reticulum. Western blot analysis using monospecific antisera against human IgG subclasses showed the LKMA directed against the 66 kD antigen to be mainly of the IgG1 subclass. These results indicate that LKMA associated with a subgroup of autoimmune hepatitis of children react with at least two different microsomal antigens in rat liver: (1) the 50 kD polypeptide, recently shown to be a cytochrome P-450 of the IID subfamily, and (2) a new antigen of 66 kD, the location of which suggests it may also be part of the mono-oxygenase complex.
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PMID:A new antigen recognized by anti-liver-kidney-microsome antibody (LKMA). 270 79


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