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)

Methacetin undergoes rapid O-dealkylation by hepatic microsomal enzyme systems, and the resultant CO2 is present in the expired air. The rate of O-dealkylation of methacetin was assessed by the [13C]methacetin breath test in seven healthy volunteers and 30 patients with histologically proven chronic liver diseases. The 30-min recovery of orally administered [13C]methacetin as 13CO2 in the exhaled air was significantly reduced in patients with chronic aggressive hepatitis and in those with liver cirrhosis but not in patients with chronic persistent hepatitis or healthy controls. Patients with either advanced cirrhosis or hepatocellular carcinoma showed significantly lower values than those with well-compensated cirrhosis. The levels in two patients with late primary biliary cirrhosis were reduced. These results show that the severity of liver damage can be effectively evaluated by [13C]methacetin breath test. In addition, this test is simple, safe, and time efficient.
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PMID:[13C]methacetin breath test for evaluation of liver damage. 303 Jun 79

Hepatocyte membranes destruction in experimental toxic hepatitis caused by heliotrine administration was accompanied by a 10-fold increase in blood serum activity of aldolase fructose-I-monophosphate, a decrease in cytochrome P-450 content, an increase in the rate of cytochrome P-450 inactivation, as well as a decrease in microsomal glucose-6-phosphatase activity. Administration of phosphatidylcholine liposomes decreased the activity of aldolase twofold, which indirectly shows partial reconstitution of liver cell membranes. Phosphatidylcholine protective action is also manifested in an increase in the activity of glucose-6-phosphatase, a microsomal marker enzyme, up to its control level and in a 20% reduced rate of cytochrome P-450 inactivation. It has been shown that destroyed liver cell membranes may be repaired by the introduction of phosphatidylcholine in the form of multilayer liposomes.
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PMID:[Phosphatidylcholine-induced repair of damaged hepatocyte membranes in heliotrine poisoning]. 303

Adverse drug reactions may mimic almost any kind of liver disease. Acute hepatitis is often due to the formation of reactive metabolites in the liver. Despite several protective mechanisms (epoxide hydrolases, conjugation with glutathione), this formation may lead to predictable toxic hepatitis after hugh overdoses (e.g. paracetamol), or to idiosyncratic toxic hepatitis after therapeutic doses (e.g. isoniazid). Both genetic factors (e.g. constitutive levels of cytochrome P-450 isoenzymes, or defects in protective mechanisms) and acquired factors (e.g. malnutrition, or chronic intake of alcohol or other microsomal enzyme inducers) may explain the unique susceptibility of some patients. Formation of chemically reactive metabolites may also lead to allergic hepatitis, probably through immunization against plasma membrane protein epitopes modified by the covalent binding of the reactive metabolites. This may be the mechanism for acute hepatitis produced by many drugs (e.g. amineptine, erythromycin derivatives, halothane, imipramine, isaxonine, alpha-methyldopa, tienilic acid, etc.). Genetic defects in several protective mechanisms (e.g. epoxide hydrolase, acetylation) may explain the unique susceptibility of some patients, possibly by increasing exposure to allergenic, metabolite-altered plasma membrane protein epitopes. Like toxic idiosyncratic hepatitis, allergic hepatitis occurs in a few patients only. Unlike toxic hepatitis, allergic hepatitis is frequently associated with fever, rash or other hypersensitivity manifestations; it may be hepatocellular, mixed or cholestatic; it promptly recurs after inadvertent drug rechallenge. Lysosomal phospholipidosis occurs frequently with three antianginal drugs (diethylaminoethoxyhexestrol, amiodarone and perhexiline). These cationic, amphiphilic drugs may form phospholipid-drug complexes within lysosomes. Such complexes resist phospholipases and accumulate within enlarged lysosomes, forming myeloid figures. This phospholipidosis has little clinical importance. In a few patients, however, it is associated with alcoholic-like liver lesions leading to overt liver disease and, at times, cirrhosis. Subjects with a deficiency in a particular isoenzyme of cytochrome P-450 poorly metabolize perhexiline and are at higher risk of developing liver lesions. Prolonged, drug-induced liver-cell necrosis may also lead to subacute hepatitis, chronic hepatitis or even cirrhosis. This usually occurs when the drug administration is continued, either because the liver disease remains undetected or because its drug aetiology is overlooked. Several autoantibodies may be present.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Acute and chronic drug-induced hepatitis. 304 68

Anti-endoplasmic reticulum antibody positive autoimmune hepatitis in children is characterized by the recognition of a single 50,000 MW protein of the endoplasmic reticulum in liver microsomal fractions by their sera. We have developed an enzyme-linked immunosorbent assay technique with rat liver microsomal preparations as the antigen to be used for detection of this disease. Titers obtained may be useful in following the course of the disease and as an aid in determining when therapy can be discontinued. The technique is rapid, sensitive, reproducible, and simple to perform and is easier to manipulate than immunofluorescence or radioimmunoassay techniques.
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PMID:Detection of anti-endoplasmic reticulum antibody-positive autoimmune hepatitis in children, using an ELISA technique. 305 18

Methoxsalen, a potent suicide inhibitor of cytochrome P-450 that can be used in humans, might be of value for the prevention of hepatitis in subjects with carbon tetrachloride poisoning. As a preliminary step, we have determined its effects on the hepatotoxicity of carbon tetrachloride in mice. Several monooxygenase activities, the in vitro covalent binding of carbon tetrachloride metabolites to microsomal proteins, and in vitro microsomal lipid peroxidation initiated by carbon tetrachloride metabolites were decreased by 60-90% in microsomes from mice killed 2 hr after the administration of methoxsalen (250 mumol X kg-1); microsomal lipid peroxidation mediated by endogenous iron and NADPH was not modified. Administration of methoxsalen (250 mumol X kg-1) 30 min before carbon tetrachloride (0.1 ml X kg-1) decreased both the in vivo formation of conjugated dienes in microsomal lipids and the in vivo covalent binding of carbon tetrachloride metabolites to lipids and proteins. This pretreatment completely prevented the hepatotoxicity of carbon tetrachloride. Other cytochrome P-450 inhibitors (cimetidine, SKF 525-A or piperonyl butoxide) given at this low molar dose (250 mumol X kg-1) exerted no protective effect. Methoxsalen (500 mumol X kg-1) was also effective, but only partially, when given 30 min after carbon tetrachloride (0.025 ml X kg-1). We conclude that pretreatment with methoxsalen decreases the metabolic activation of carbon tetrachloride, and completely prevents its hepatotoxicity in mice. Post-treatment with methoxsalen must be given early and is only partially effective in mice.
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PMID:The drug methoxsalen, a suicide substrate for cytochrome P-450, decreases the metabolic activation, and prevents the hepatotoxicity, of carbon tetrachloride in mice. 310 41

To evaluate thyroid function in 19 patients with fulminant hepatitis (FH), we have measured total and free 3,5,3'-triiodothyronine (T3) and thyroxine (T4), 3,3',5'-triiodothyronine (reverse T3, rT3), thyroid-stimulating hormone (TSH) and thyroxin-binding globulin (TBG) in patients with FH, compared with those of 80 patients with other various liver diseases and of 10 healthy controls. Patients with FH showed the lowest values of serum T3 and the highest levels of rT3 among all patients with liver diseases studied. Furthermore, patients with FH showed a significant increase of rT3 in comparison with subacute hepatitis (SAH), "acute-on-chronic" (AOC) type of hepatic failure, ordinary and severe forms of acute hepatitis (AHo and AHs) and decompensated liver cirrhosis (LC-D). In addition, serum T3 and rT3 and the rT3/T3 ratio significantly correlated with prothrombin time (PT) and plasma methionine level. We also found that serum T3 and rT3 concentrations and the rT3/T3 ratio showed early and rapid normalization in cases of FH that survived, but they did not improve in patients with fatal outcome. These results suggest that serum T3, particularly rT3 concentrations and the rT3/T3 ratio may be useful indicators for assessing the severity and prognosis of patients with FH and can be considered to the sensitive indices for functioning hepatic microsomal reserve as well.
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PMID:Serum thyroid hormone levels in patients with fulminant hepatitis: usefulness of rT3 and the rT3/T3 ratio as prognostic indices. 311 36

Previous investigations have shown that antibodies in sera from patients with halothane hepatitis recognize neoantigens, expressed in livers of halothane-exposed rabbits and rats, which consist of a halothane metabolite bound covalently to specific microsomal proteins. These studies have suggested that the patients' antibodies may play a role in the pathogenesis of the hepatitis. In the present investigation, human liver biopsy samples were analyzed using an immunoblotting method to seek evidence for expression of halothane-induced neoantigens in humans. Sera from four patients with halothane hepatitis, which recognized halothane-induced rabbit liver neoantigens of 100, 76 and 57 kD, reacted strongly with antigens of very similar molecular weights that were expressed in livers from two patients who had died of cardiac failure following recent anesthesia with halothane. The antigens were not expressed in normal human liver or in livers from three patients who died of cardiac failure following anesthesia with agents other than halothane. The human antigens were not recognized by antibodies present in various control sera. Recognition of the 100- and 76-kD human antigens by the patients' antibodies was greatly reduced by absorption of sera with liver microsomes from halothane-exposed rabbits, but not by absorption of sera with control rabbit microsomes. These results indicate that humans exposed to halothane express liver neoantigens which are analogous to the halothane metabolite-protein neoantigens characterized previously in halothane-exposed animals.
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PMID:Evidence for expression in human liver of halothane-induced neoantigens recognized by antibodies in sera from patients with halothane hepatitis. 319 77

The existence of a rare syndrome of "enflurane hepatitis" similar to that described for halothane and of a cross-sensitization between halothane and enflurane has been controversial, largely due to equivocal clinical case reports and a lack of a plausible molecular mechanism for the hepatotoxicity. The present study suggests a possible hypersensitivity basis for enflurane hepatitis and the apparent cross-sensitization between halothane and enflurane involving covalently bound liver microsomal adducts. Immunoblotting studies have revealed that antibodies in the sera of six patients with halothane hepatitis recognize liver microsomal antigens of Mr = 100,000, or both 100,000 and 76,000, formed in rats treated with enflurane or halothane. These antigens were not detected in microsomes from isoflurane- or sesame oil-treated rats. The recognition of these antigens could be abolished by preincubation of the sera with microsomes from halothane-treated rats. These data suggest that the difluoromethoxydifluoroacetyl halide metabolite of enflurane, as well as the trifluoroacetyl halide metabolite of halothane, covalently bind to similar hepatic proteins, and may become immunogens in susceptible patients. This mechanism may also account for the apparent cross-sensitization between halothane and enflurane anesthesia, and the development of hepatic necrosis.
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PMID:Enflurane metabolism produces covalently bound liver adducts recognized by antibodies from patients with halothane hepatitis. 319 54

Arene oxide metabolites of aromatic anticonvulsants (phenytoin, phenobarbital, and carbamazepine) may be involved in the pathogenesis of hypersensitivity reactions. We investigated 53 patients with clinical sensitivity to anticonvulsants by exposing their lymphocytes in vitro to drug metabolites generated by a murine hepatic microsomal system. The diagnosis of a hypersensitivity reaction was corroborated by in vitro rechallenge for each drug (phenytoin, n = 34; phenobarbital, n = 22; carbamazepine, n = 25) when cytotoxicity (% dead cells) exceeded 3 SD above the mean result for controls. Cross-reactivity among the drugs was noted. 7 out of 10 patients who had received all three anticonvulsants had adverse reactions to each. 40 out of 50 patients tested to all three drugs in vitro were positive to each. Adverse reactions were indistinguishable among anti-convulsants. Skin rash (87%), fever (94%), hepatitis (51%), and hematologic abnormalities (51%) were common clinical features of each drug. 62% of reactions involved more than two organs. Cells from patients' parents exhibited in vitro toxicity that was intermediate between values for controls and patients. In vitro testing can help diagnose hypersensitivity to anticonvulsants. Cells from patients may also be used for prospective individualization of therapy to decrease risk of adverse reaction. Cross-reactivity among the major anticonvulsants is common and should be considered before deciding on alternative therapy.
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PMID:Anticonvulsant hypersensitivity syndrome. In vitro assessment of risk. 319 57

Previous studies have demonstrated that sera from patients with severe liver damage after halothane anesthesia ("halothane hepatitis") contain antibodies reacting with novel antigenic determinants expressed on hepatocytes from rabbits exposed previously to halothane. To determine the structure of the halothane-induced antigen(s), immunoblotting experiments were performed using patient sera and rabbit liver subcellular fractions. Three polypeptide antigens (Mr 100,000, 76,000 and 57,000) expressed in liver fractions from animals sacrificed 16 hr after exposure to 1% halothane in oxygen for 45 min, but not in fractions from unexposed animals, were identified. Analysis of fractions prepared by differential and sucrose density gradient centrifugation, and characterized by enzyme marker analysis, localized all three antigens to a microsomal subfraction relatively enriched in glucose-6-phosphatase activity, therefore, presumably derived from the endoplasmic reticulum. Antibodies to these antigens were detected in 19 of 24 sera from patients with halothane hepatitis, and four distinct patterns of antibody specificity were observed: 100,000 + 76,000 (seven patients), 100,000 alone (seven patients), 76,000 alone (three patients) and 57,000 alone (two patients). Such antibodies were not detectable in sera from 24 normal blood donors or 36 control patients. Thus, halothane induces expression of three distinct polypeptide antigens in liver, and patients with halothane hepatitis differ in patterns of recognition of these antigens by circulating antibodies.
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PMID:Identification by immunoblotting of three halothane-induced liver microsomal polypeptide antigens recognized by antibodies in sera from patients with halothane-associated hepatitis. 330 10


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