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)

It has been reported that cytochrome P450 is expressed in the plasma membrane of hepatocytes isolated from human and rat. Cytochrome P450s expressed on the cell surface are potential targets for the immune response of drug-induced and autoimmune hepatitis. However, the mechanisms behind transport of cytochrome P450 to the plasma membrane are obscure. The present investigation aimed at identifying cytochrome P450 expressed in the Golgi apparatus. Golgi membrane fractions from rat liver were prepared and characterized: one enriched with cis-Golgi, one highly enriched with trans-Golgi, and one intermediate Golgi fraction representing medial-Golgi. In these three fractions, significant amounts of cytochrome P450 and NADPH cytochrome P450 reductase were present, which could not be accounted for by contamination with endoplasmic reticulum. A marked difference between the relative content of different cytochrome P450 enzymes was found. CYP4A1 was found at the highest concentration, CYP2E1 at an intermediary level, and CYP1A2 at low levels, whereas no Golgi-specific CYP3A1 was detectable. It was also shown that the CYP2E1 present in the Golgi fractions was catalytically active. It is suggested that various forms of hepatic cytochrome P450 are transported to the plasma membrane through the Golgi apparatus in an enzyme-specific manner.
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PMID:Enzyme-specific transport of rat liver cytochrome P450 to the Golgi apparatus. 880 87

Previous studies have demonstrated that sera from patients with autoimmune hepatitis type 1 contain antibodies which react with proteins other than the endoplasmic reticulum integral membrane protein of apparent Mr 50,000, now known to be a cytochrome P450 of the IID subfamily. Sera from 141 patients found by immunofluorescence to be positive for anti-liver-kidney microsome antibodies type 1, and sera from 50 blood donors used as controls, were analyzed by immunoblotting experiments on rat liver microsomes, microsomal subfractions, and also microsomes subjected to various treatments, as described in the text. These fractions were characterized morphologically by electronic microscopy and biochemically by different enzymatic activities. Five bands were found to be stained more often by the patients' sera than by the controls' and with a statistically significant difference in frequency. These antigenic proteins were located at apparent Mr 62,000, 58,000, 50,000, 40,000, and 35,000. The 50,000 protein was of course more often stained than the others. Antibodies against these antigens belonged essentially to the IgG1 subclass. For some of them, subcellular localization and membrane topography are discussed. Interestingly, the 58,000 protein is not an integral membrane protein.
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PMID:Detection on immunoblot of new proteins from the microsomal fraction recognized by anti-liver-kidney microsome antibodies type 1. 881 Oct 45

Patients with tienilic acid hepatitis exhibit autoantibodies that recognize unalkylated cytochrome P450 2C9 in humans but recognize 2C11 in rats. Our aim was to determine whether the immune reaction is also directed against neoantigens. Rats were treated with tienilic acid and hepatocytes were isolated. Immunoprecipitation, immunoblotting, and flow cytometry experiments were performed with an anti-tienilic acid or an anti-cytochrome P450 2C11 antibody. Cytochrome P450 2C11 was the main microsomal or plasma membrane protein that was alkylated by tienilic acid. Inhibitors of vesicular transport decreased flow cytometric recognition of both unalkylated and tienilic acid-alkylated cytochrome P450 2C11 on the plasma membrane of cultured hepatocytes. Tienilic acid hepatitis sera that were preadsorbed on microsomes from untreated rats (to remove autoantibodies), poorly recognized untreated hepatocytes in flow cytometry experiments, but better recognized tienilic acid-treated hepatocytes. This recognition was decreased by adsorption with tienilic acid or by preexposure to the anti-tienilic acid or the anti-cytochrome P450 2C11 antibody. We conclude that cytochrome P450 2C11 is alkylated by tienilic acid and follows a vesicular route to the plasma membrane. Tienilic acid hepatitis sera contain antibodies against this tienilic acid adduct, in addition to the previously described anticytochrome P450 autoantibodies.
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PMID:Antigenic targets in tienilic acid hepatitis. Both cytochrome P450 2C11 and 2C11-tienilic acid adducts are transported to the plasma membrane of rat hepatocytes and recognized by human sera. 882 14

Autoantibodies directed against cytochromes P450 or UDP-glucuronosyl-transferases (UGTs) are detected in hepatitis of different aetiology: drug-induced hepatitis autoimmune hepatitis type 2, hepatitis associated with the autoimmune polyglandular syndrome type 1 (APS1) and virus-induced autoimmunity. Autoantibodies directed against cytochrome P450 2C9 are induced by tienilic acid, and anti-P450 1A2 autoantibodies by dihydralazine. Potential mechanisms involved may be metabolic activation of the drugs by cytochromes P450, adduct formation and circumvention of T cell tolerance. In contrast, little is known about the aetiology of autoimmune hepatitis type 2. This disease is characterized by marked female predominance, hypergammaglobulinaemia, circulating autoantibodies and benefit from immunosuppression. Patients with HLA B8, DR3 or DR4 are over-represented. The major target of autoimmunity in this disease is cytochrome P450 2D6. The autoantibodies were shown to be directed against at four short linear epitopes. In addition, about 10% of the patient sera form an additional autoantibody that detects a conformational epitope on UGTs of family 1. The phenomenon of virus-associated autoimmunity is found in chronic infections with hepatitis C and D. In chronic hepatitis C the major target of the autoantibodies again is cytochrome P450 2D6. Some linear and a high proportion of conformational epitopes are recognized. The LKM3 autoantibody is found in 13% of patients with chronic hepatitis D. The target proteins are UGTs of family 1 and, in some sera also, low titres of anto-antibodies directed against UGTs of family 2 are found. The epitopes detected are conformational. In contrast to the patients suffering from autoimmune hepatitis, patients with hepatitis as part of the autoimmune polyglandular syndrome type 1 recognize cytochrome P450 1A2. Interestingly, in APS1 patients also, autoantibodies directed against cytochromes P450 c21, P450 scc and P450 c17a may be detected; these autoantibodies are associated with adrenal and ovarian failure.
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PMID:Cytochromes P450 and UDP-glucuronosyl-transferases as hepatocellular autoantigens. 890 21

Activation of halothane to trifluoroacetyl halide, followed by covalent binding to proteins (neoantigen formation) has been proposed to be the mechanism by which halothane causes immune hepatitis. The aim of this study was to identify the cytochrome P450 (CYP) enzyme primarily responsible for the NADPH-dependent covalent binding of [14C]halothane to human liver microsomes. Human liver microsomes were incubated in the absence and presence of NADPH with various concentrations of halothane (from 4.6 to 3,300 microM) to examine the effects of substrate concentration on the nonspecific and specific (NADPH-dependent) binding of [14C]halothane to microsomal protein. As a function of substrate concentration, the specific binding of [14C]halothane to human liver microsomes was biphasic, suggesting that the activation of halothane is catalyzed by a high-affinity enzyme(s) at low substrate concentrations (<150 microM) and by a low-affinity enzyme(s) at high substrate concentrations (>150 microM). For the high-affinity enzyme, the apparent KM for the covalent binding of [14C]halothane was approximately 10 microM, and Vmax was approximately 32 pmol equivalents of halothane bound/mg protein/min under conditions where covalent binding was directly proportional to incubation time and protein concentration. Ten individual samples of human liver microsomes were incubated with a low concentration of halothane (35 microM) to determine the sample-to-sample variation in the specific binding of [14C]halothane to microsomal protein. Covalent binding ranged from 10 to 40 pmol equivalents of halothane bound/mg protein/min and was highly correlated (r2 = 0.93) with the sample-to-sample variation in chlorzoxazone 6-hydroxylase activity, which reflects the levels of CYP2E1. These results suggest that CYP2E1 is the high-affinity enzyme in human liver microsomes responsible for activating halothane to a reactive metabolite. This is supported by the observation that 4-methylpyrazole, a CYP2E1 inhibitor, inhibited the NADPH-dependent binding of [14C]halothane to microsomal protein. The sample-to-sample variation in the covalent binding of [14C]halothane at high substrate concentrations did not correlate with any known CYP enzyme activity. This suggests that several enzymes catalyze the oxidation of halothane at higher substrate concentrations. In conclusion, at pharmacologically relevant concentrations, the covalent binding of halothane to human liver microsomes is primarily catalyzed by CYP2E1.
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PMID:Characterization of the NADPH-dependent covalent binding of [14C]halothane to human liver microsomes: a role for cytochrome P4502E1 at low substrate concentrations. 897 Nov 35

Drugs may induce hepatitis through immune mechanisms. In this review we have used the examples of 2 drugs to elucidate the first steps leading to the triggering of such disease, namely tienilic acid (TA) and dihydralazine (DH). These drugs are transformed into reactive metabolite(s) by cytochrome P450 (2C9 for TA and 1A2 for DH) (step 1). The reactive metabolites produced are very short-lived and bind directly to the enzymes which generated them (step 2). A neoantigen is thus formed which triggers an immune response (step 3), characterized by the presence of autoantibodies in the patient's serum (step 4). The autoantibodies are directed against the cytochrome P450 which generated the metabolite(s). Although the process by which TA and DH induce-hepatitis has been elucidated, further studies are necessary to generalize this mechanism. In addition, an animal model will also be useful to fully understand the immune mechanism of this type of disease.
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PMID:Anti-cytochrome P450 autoantibodies in drug-induced disease. 898 48

Cytochromes P450 and UDP-Glucuronosyltransferases (UGT) are targets of microsomal autoantibodies in liver and kidney (LKM). LKM autoantibodies are observed in autoimmune hepatitis, in some patients with viral hepatitis, drug-induced hepatitis and autoimmune hepatitis as disease component of the autoimmune polyglandular syndrome type 1 (APS-1). In autoimmune hepatitis LKM antibodies are markers of autoimmune hepatitis type 2. The major target of LKM-1 antibodies is cytochrome P450 2D6; a second less frequent target was the described UGTs of family 1. In autoimmune hepatitis LKM-1 autoantibodies are usually directed against small linear epitopes. LKM autoantibodies are also associated with infection with hepatitis viruses C and D. In hepatitis C about 1-2% of patients develop LKM-1 autoantibodies. About 60% of these autoantibodies are conformation dependent. The presence of LKM autoantibodies in hepatitis C may be associated with an increased risk in interferon treatment. LKM-3 autoantibodies are found in about 8% of patients with hepatitis D and are directed against conformational epitopes. Patients treated with certain drugs may develop drug induced hepatitis. In hepatitis induced by tienilic acid, tienilic acid is activated by and covalently bound to cytochrome P450 2C9. Activation of the immune system results in the formation of autoantibodies against cytochrome P450 2C9 (LKM-2) and infiltration of the liver with immune cells. A similar mechanism has been described for dihydralazine induced hepatitis, where autoantibodies are directed against P450 1A2 (LM). Autoantibodies directed against cytochrome P450 1A2 also are found in patients suffering from hepatitis as a disease component of APS-1.
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PMID:Cytochrome P450 enzymes and UDP-glucuronosyltransferases as hepatocellular autoantigens. 911 34

Reactive oxygen species (ROS) are cytotoxic, causing inflammatory disease, including tissue necrosis, organ failure, atherosclerosis, infertility, birth defects, premature aging, mutations and malignancy. ROS are produced in the metabolism of drugs and industrial chemicals by (i) one-electron peroxidase oxidations to form cation radicals, (ii) cytochrome P450 metabolism to free radical products, (iii) stabilisation of the ROS-generator, CYP2E1, and (iv) futile cycling of other cytochromes P450. ROS production initiates inflammation which unless quenched may result in chronic inflammatory disease states, e.g. hepatitis, nephritis, myositis, scleroderma, lupus erythematosus, multiple system organ failure. Quenching of ROS is affected by the redox buffer, glutathione (GSH), and the antioxidants, ascorbic acid, tocopherols, retinoids, in conjunction with the redox enzymes, GSH reductase, GSH peroxidase, catalase and superoxide dismutase. Many industrial workers with symptoms of systemic inflammation, resulting from exposure to toxic chemicals, are diagnosed as having rheumatoid arthritis, virus infections, or other microbial lesions, largely because many physicians are unaware that exposure to certain chemicals can initiate inflammatory disease states.
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PMID:Chemical toxicity and reactive oxygen species. 911 92

The anesthetic, halothane, is bioactivated by the liver cytochrome P450 system to trifluoroacetyl-chloride, which can readily acylate liver protein. Covalent binding of the trifluoroacetyl moiety may result in hapten formation leading to the induction of an immune response and ultimately halothane hepatitis. In this study the presence of trifluoroacetylated-protein adducts in Kupffer cells was investigated to learn how the immune system might come in contact with the proteins. Guinea pigs were exposed to 1.0% halothane, 40% oxygen for 4 h. Kupffer cells were isolated on days 1 through 9 post-exposure, by liver perfusion and purification by elutriation. Using gel electrophoresis and Western blotting techniques, it has been demonstrated that Kupffer cells obtained from halothane-treated guinea pigs, do carry trifluoroacetyl-protein adducts as recognized by an anti-trifluoroacetyl-rabbit serum albumin antibody. Apparent molecular weights of polypeptides bound by trifluoroacetyl were of a wide range, 25-152 kDa. Bands were most prominent in the larger Kupffer cells with more appearing at lower molecular weights. Trifluoroacetyl-protein adducts were not detected in lung, spleen, lymph node or peripheral blood macrophages. This work suggests a role for Kupffer cells in the presentation of altered proteins in the liver to cells of the immune system.
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PMID:Kupffer cells from halothane-exposed guinea pigs carry trifluoroacetylated protein adducts. 918 99

A recently discovered bacterium, Helicobacter hepaticus, infects the intrahepatic bile canaliculi of mice, causing a severe chronic hepatitis culminating in liver cancer. Thus, it affords an animal model for study of bacteria-associated tumorigenesis including H. pylori-related gastric cancer. Reactive oxygen species are often postulated to contribute to this process. We now report that hepatitis of male mice infected with H. hepaticus show significant increases in the oxidatively damaged DNA deoxynucleoside 8-hydroxydeoxyguanosine, with the degree of damage increasing with progression of the disease. Perfusion of infected livers with nitro blue tetrazolium revealed that superoxide was produced in the cytoplasm of hepatocytes, especially in association with plasmacytic infiltrates near portal triads. Contrary to expectations, Kupffer cells, macrophages, and neutrophils were rarely involved. However, levels of cytochrome P450 (CYP) isoforms 1A2 and 2A5 in hepatocytes appeared to be greatly increased, as indicated by the number of cells positive in immunohistochemistry and the intensity of staining in many cells, concomitant with severe hepatitis. The CYP2A5 immunohistochemical staining co-localized with formazan deposits resulting from nitro blue tetrazolium reduction and occurred in nuclei as well as cytoplasm. These findings suggest that CYP2A5 contributes to the superoxide production and 8-hydroxydeoxyguanosine formation, although reactive oxygen species from an unknown source in the hepatocytes leading to CYP2A5 induction or coincidental occurrence of these events are also possibilities. Three glutathione S-transferase isoforms, mGSTP1-1 (pi), mGSTA1-1 (YaYa), and mGSTA4-4, also showed striking increases evidencing major oxidative stress in these livers.
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PMID:Increased oxidative DNA damage and hepatocyte overexpression of specific cytochrome P450 isoforms in hepatitis of mice infected with Helicobacter hepaticus. 932 26


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