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)

Tyramine oxidase and UDP-glucuronyl transferase activities were determined in 52 diseased livers obtained by needle biopsy. 14 liver specimens were also subjected to acetyl CoA carboxylase determination. Tyramine oxidase level was elevated in livers with nonalcoholic fatty change or toxic hepatitis, and reduced in livers with fibrosis or chronic alcoholic injury. UDP-glucuronyl transferase activity was reduced in livers with severe parenchymal damage or hyperbilirubinemia. Acetyl CoA carboxylase activity decreased markedly in an active alcoholic cirrhotic liver, and was elevated in alcoholic fatty livers as well as in a liver with acute venous stasis.
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PMID:Tyramine oxidase activity in needle biopsy of normal livers and diseased livers. 1 28

Changes in uridine-diphosphate glucuronyl transferase activity (UDP-GT) in liver homogenates of hamsters treated with different doses of isoniazid (INH), rifampicin (RMP), para-aminosalicylic acid (PAS) and hydrocortisone for several periods of time were studied and expressed as mg of bilirubin conjugated per g of protein per h. INH, RMP, PAS and hydrocortisone induced UDP-GT activity to a statistically significant degree. The optimum dose for high induction was 20 mg for INH, RMP and hydrocortisone, and 200 mg for PAS per kg of body weight. The optimum time of treatment for high induction was 10 consecutive days of intraperitoneal administration for all drugs examined. Such data, particularly for INH and RMP, indicate why patients who receive these drugs show no clinical jaundice, although they develop an hepatitis-like disease with elevation of serum transaminase of hepatic origin. This could be the result of stimulation of the hepatic smooth endoplasmic reticulum which produces rapid conjugation and therefore excretion of bilirubin. Similarly, the antituberculous drugs may cause liver dysfunction by inducing other liver enzymes.
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PMID:Augmentation of hepatic uridine-diphosphate glucuronyl transferase activity by antituberculous drugs in hamsters in vivo. 312 48

Microsomal UDP-glucuronosyltransferase activity toward the bile acids (chenodeoxycholic, deoxycholic, ursodeoxycholic, lithocholic, and glycolithocholic) has been detected in human specimens of liver, kidney, and intestinal mucosa. The characteristics of hepatic and extrahepatic UDP-glucuronosyltransferase activities toward these bile acids were compared with respect to kinetic parameters and other catalytic properties. Whereas no organ-specific differences in the affinities of individual bile acids to hepatic and extrahepatic UDP-glucuronosyltransferases were observed, the individual bile acids showed reaction rates in liver that were about twice the rates estimated in kidney and about twice to three times the rates observed in duodenal mucosa. In intestinal mucosa the rate of chenodeoxycholic acid glucuronidation exhibited a progressive decrease from duodenum to colon, where it was 30% of the duodenal level. Comparison of the glucuronidation rates that were estimated with different bile acids in hepatic or extrahepatic tissues showed that for each organ a bile acid structure-activity relationship existed, with highest activity observed for lithocholic and ursodeoxycholic acids, which was about twofold higher compared with chenodeoxycholic or deoxycholic acids. Lowest activity was estimated for glycolithocholic acid. UDP-glucuronosyltransferase activity toward chenodeoxycholic acid was studied in biopsy specimens of liver that were obtained from a large group of patients with the following liver diseases: liver cirrhosis, liver fibrosis, granulomatous hepatitis, fatty liver hepatitis, and fatty liver. A significant decrease in enzyme activity was observed in patients with liver cirrhosis and in patients with granulomatous hepatitis compared with patients without liver disease.
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PMID:Hepatic and extrahepatic glucuronidation of bile acids in man. Characterization of bile acid uridine 5'-diphosphate-glucuronosyltransferase in hepatic, renal, and intestinal microsomes. 643 Sep 60

The effect of the hepatoprotective drug silymarin (Carsil) on the incorporation rate of 14C-leucine into total proteins and on the biosynthesis of UDP-N-acetylhexosamine and microsomal glycoproteins using 14C-glucose of rat liver with D-galactosamine hepatitis was studied. It was found that i.p. treatment with Carsil in a dose of 140 mg/kg applied for 4 consecutive days partly abolishes the inhibitory effect of galactosamine on protein and glycoprotein biosynthesis. The specific activity of 14C-labelled UDP-N-acetylhexosamine is higher in the liver of D-galactosamine treated rats, compared with the specific activity of the nucleotide from liver pretreated with Carsil and then injected with galactosamine. This fact supports the suggestion that Carsil probably activates the metabolic conversion of UDP-hexosamine to the acetylated metabolite-UDP-N-acetylhexosamine, which is the normal liver cell metabolite, in liver cells.
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PMID:Effect of silymarin (Carsil) on the microsomal glycoprotein and protein biosynthesis in liver of rats with experimental galactosamine hepatitis. 688 84

In a few patients diclofenac produces mild increases in serum aminotransferase activity and in rare cases may be associated with the occurrence of fulminant hepatic necrosis. Both direct toxic effects of a diclofenac metabolite and hypersensitivity reactions have been suggested as possible molecular mechanisms of liver injury. We investigated the pathways of bioactivation and cytotoxicity of diclofenac, which undergoes both aromatic hydroxylation and acyl glucuronidation, in short-term cultured rat hepatocytes. LDH release was first evident after 4 hr of incubation with diclofenac (> 500 microM). In addition, time- and concentration-dependent covalent binding of [14C]diclofenac to hepatocellular proteins occurred, indicating the presence of a reactive intermediate. To specifically explore the role of the acyl glucuronidation pathway in the induction of cytotoxicity and covalent drug-protein adducts, we used two inhibitors of the UDP-glucuronosyltransferase (UDPGT), borneol and 7,7,7-triphenylheptyl-UDP. LDH release was markedly increased in the presence of either UDPGT inhibitor. Alternatively, covalent binding to hepatocellular proteins was greatly reduced when the glucuronide formation was selectively blocked. Furthermore, in vitro inhibition of P450-dependent oxidative biotransformation with the selective inhibitor of the CYP2C subfamily sulfaphenazole or with cimetidine markedly reduced the extent of cytotoxicity, whereas the degree of covalent adduct formation remained unchanged. Similarly, pretreatment of the rats with phenobarbital (80 mg/kg/day for 4 days) delayed the onset and reduced the extent of diclofenac-induced LDH release. Collectively, these results indicate that the formation of a toxic diclofenac metabolite(s) catalyzed by P4502C in hepatocytes leads to acute lethal cell injury, whereas diclofenac acyl glucuronide formation is associated with covalent binding of a reactive metabolite to hepatocellular proteins that is not related to the acute cytotoxicity. The protein adduct formation and its modulation by UDPGT may, however, be toxicologically relevant for the expression of diclofenac hepatitis.
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PMID:Diclofenac covalent protein binding is dependent on acyl glucuronide formation and is inversely related to P450-mediated acute cell injury in cultured rat hepatocytes. 851 77

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

Autoimmune hepatitis is a disease of unknown cause. Apart from genetic markers such as HLA DR3 and HLA DR4, female predominance, hypergammaglobulinaemia and characteristic autoantibodies are diagnostic hallmarks. Several viruses have been discussed to induce autoimmune hepatitis, among them all major hepatotropic viruses, Epstein-Barr virus and herpes simplex virus. It seems that herpes viruses may be responsible in at least some cases of patients with autoimmune hepatitis type 2. Furthermore, hepatotropic viruses like hepatitis C and hepatitis D virus may cause autoimmune phenomena which are similar to those in idiopathic autoimmune hepatitis. LKM-1 antibodies in hepatitis C and LKM-3 antibodies in hepatitis D may cause diagnostic problems. LKM-1 antibodies in hepatitis C are directed either against cytochrome P450 2D6 or other yet unidentified microsomal antigens. As in hepatitis C the antimicrosomal autoantibody response in hepatitis D is more heterogeneous. These LKM-3 antibodies react with several epitopes on proteins of family 1 and 2 UDP-glucuronosyltransferases (UGT). Additional autoantibodies are seen in hepatitis D virus infection. Liver diseases are models to study autoimmune disease, drug-induced and virus-induced autoimmunity in humans.
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PMID:Hepatotropic viruses and autoimmunity 1997. 909 72

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

Enzymes of phase I (cytochromes P450) and phase II (UDP [uridine diphosphate]-glucuronosyltransferases) of drug metabolism are targets of autoimmunity in the following chronic liver diseases of different etiology: 1)autoimmune hepatitis (AIH); 2) hepatitis associated with the autoimmune polyendocrine syndrome type 1 (APS-1); 3) virus-induced autoimmunity; and 4) drug-induced hepatitis. AIH is diagnosed by the following: the absence of infection with hepatitis viruses; the presence of a threshold of relevant factors, including circulating autoantibodies, hypergammaglobulinemia, female sex (female/male ratio 4:1), human leukocyte antigen (HLA) B8, DR3, or DR4; and benefit from immunosuppression. Patients with autoimmune hepatitis type 2 (AIH-2) are characterized by antibodies directed against liver and kidney microsomes, by an early onset of autoimmune hepatitis, which is a more aggressive course of the disease, and by a higher prevalence of autoimmunity directed against other organs. The major target of autoimmunity in patients with AIH-2 is cytochrome P450 2D6. Epitope mapping experiments revealed four short linear epitopes on cytochrome P450 2D6, recognized by liver/kidney microsomal autoantibodies type 1 (LKM-1) in patients with AIH-2. In addition, about 10% of the patient sera contain autoantibodies that detect a conformational epitope on UDP-glucuronosyltransferases (UGTs) of family 1. Presently, LKM-1 autoantibodies are used as diagnostic markers for AIH-2. It is unclear whether these autoantibodies have a pathogenetic role. Hepatitis is found in some patients with APS-1. Presumably this also is an autoimmune liver disease. APS-1 patients with hepatitis may develop autoantibodies directed against microsomal P450 enzymes of the liver; however, these autoantibodies do not recognize cytochrome P450 2D6, but they do recognize cytochrome P450 1A2. Autoimmunity in patients with APS-1 usually is directed against several organs simultaneously, and several organ specific autoantibodies may exist. Interestingly, APS-1 patients may produce various anti-cytochrome P450 antibodies. In addition to the hepatic anti-cytochrome P450, 1A2 autoantibodies are directed against steroidogenic cytochromes P450, namely P450 c21, P450 scc, and P450 c17. These autoantibodies correlate with adrenal and ovarian failure and often these steroidal cell autoantibodies precede the manifestation of adrenal or ovarian dysfunction. Whether anti-P450 1A2 autoantibodies have a similar predictive value is not yet known. LKM autoantibodies are further found in association with chronic hepatitis C and D. In chronic hepatitis C, the major target of LKM autoantibodies is cytochrome P450 2D6. Predominantly, conformational epitopes are recognized by LKM-1 sera of patients with chronic hepatitis C. In 13% of patients with chronic hepatitis D, LKM-3 autoantibody is detectable. The target proteins are UGTs of family 1 and in a minority of sera UGTs of family 2. The epitopes are conformational. All hepatic diseases discussed earlier have in common that autoimmunity, which is directed against enzymes of drug metabolizing multigene families. Each disease is characterized by a specific pattern of autoantibodies, with apparently little overlap. For example, LKM-1 autoantibodies, which are directed against P450 2D6, seem to overlap between AIH and chronic hepatitis C. However, a close examination of these autoantibodies shows differences between LKM-1 autoantibodies from patients with chronic hepatitis C and with AIH. In AIH, LKM autoantibodies are more homogenous, titers are higher, and major autoepitopes on cytochrome P450 2D6 are small and linear. LKM autoantibodies in viral hepatitis C are more heterogeneous and there are multiple epitopes, many of which are conformational. These differences indicate the different mechanisms that are involved in the generation of autoimmunity. (ABSTRACT TRUNCATED)
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PMID:Cytochromes P450 and uridine triphosphate-glucuronosyltransferases: model autoantigens to study drug-induced, virus-induced, and autoimmune liver disease. 932 34

Pharmacokinetic studies demonstrated that the decrease in drug biotransformation in hepatic failure depends on the metabolic pathways involved. To test whether glucuronidation reactions supported by UDP-glucuronosyltransferases are differentially affected in such conditions, we investigated the in vitro glucuronidation of four selected drugs and xenobiotics (zidovudine, oxazepam, lamotrigine, and umbelliferone) by using microsomes from human healthy and unhealthy (cirrhosis, hepatitis) livers as enzyme sources. Theses substances are glucuronidated by several UDP-glucuronosyltransferase isoforms. Lidocaine N-deethylation activity measured concomitantly was used as a positive control, because the inhibition of this reaction in patients with hepatic diseases is well documented. The metabolic clearances of zidovudine and lidocaine were decreased significantly in liver cirrhosis (0.17 versus 0.37 microliter/min/mg protein and 0.40 versus 2.73 microliter/min/mg protein, respectively) as a consequence of a decrease of their corresponding Vmax of metabolism. By contrast, the metabolic clearances of oxazepam, umbelliferone, and lamotrigine glucuronidation remained unchanged. Previous studies reported that the in vivo oral clearances of zidovudine and lidocaine were decreased by 70% and 60%, respectively, in cirrhotic livers, whereas those of lamotrigine and oxazepam were not affected. Consequently, it is likely that the in vitro metabolic data, which support the in vivo results, therefore could contribute to reasonably predict the level of impairment of hepatic clearance in patients with liver cirrhosis.
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PMID:Glucuronidation of drugs by hepatic microsomes derived from healthy and cirrhotic human livers. 1021 1

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