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)

The pathogenesis of alcoholic liver disease is unclear. The recent literature on pathogenic factors, including direct effects of ethanol and its proximate metabolite acetaldehyde, associated nutritional factors, the formation of acetaldehyde-protein adducts, associated immune alterations, and the potential for liver injury due to coexisting hepatitis virus infection, is highlighted. The therapy of patients with advanced alcoholic liver injury, especially alcoholic hepatitis, is also controversial. It seems reasonable that all patients should receive adequate nutrition even if parenteral or enteral supplementation is required. Corticosteroid administration may benefit those patients with alcoholic hepatitis who have coexisting spontaneous hepatic encephalopathy and no gastrointestinal bleeding. For patients with complications from end-stage alcoholic cirrhosis, liver transplantation should be considered, as the patient with alcoholic cirrhosis does as well after liver transplantation as those patients with other forms of end-stage liver disease.
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PMID:Modern approach to alcoholic liver disease. 143 70

Considerable clinical and experimental evidence points to the importance of immune responses in the development of alcoholic liver disease. In the present study it was investigated whether circulating antibodies from patients with alcoholic liver disease recognize acetaldehyde-liver protein adducts. Cytosolic and microsomal fractions from livers of Wistar rats or from normal human liver were incubated with acetaldehyde (0.5-2.5 mmol/L) and/or cyanoborohydride (100 mmol/L) then analysed by immunoblotting. Cytosolic fractions that had been incubated with acetaldehyde and cyanoborohydride expressed a 200-kilodalton protein antigen not present in untreated fractions or fractions incubated with acetaldehyde or cyanoborohydride alone. The 200-kilodalton antigen was recognized by immunoglobulin (Ig)A antibodies in a large proportion of sera from patients with alcoholic hepatitis (70%, n = 23), but in significantly smaller proportions of sera from patients with alcoholic cirrhosis without hepatitis (30%, n = 10; P < 0.05), heavy drinkers without overt liver disease (20%, n = 10; P < 0.02), patients with nonalcoholic liver disease (35%, n = 17; P < 0.05), or normal control subjects consuming moderate quantities of alcohol (25%, n = 20%; P < 0.005). These results indicate that IgA antibodies to a 200-kilodalton acetaldehyde-protein adduct are present in a large proportion of patients with alcoholic liver disease and in a significantly smaller proportion of other individuals.
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PMID:Immunoglobulin A antibody to a 200-kilodalton cytosolic acetaldehyde adduct in alcoholic hepatitis. 145 88

Several hepatobiliary diseases appear to be mediated by the host immune response. They can be subdivided into those in which the immune reaction is against an infectious agent such as hepatitis viruses, those in which the immune reaction appears to be against an autoantigen expressed on hepatobiliary cells, and those due to alloimmunity. The existence of autoimmune liver diseases indicates a breakdown in the mechanisms responsible for self-tolerance. In HBV infection, the hepatocellular necrosis appears to be mediated by the host immune response against viral antigens expressed on the membranes of infected hepatocytes. Autoimmune chronic active hepatitis can be subdivided on the basis of differences in circulating autoantibodies. In classic type I autoimmune chronic hepatitis, autoantibodies are directed against non-organ- and non-species-specific antigens. Thus, they are unlikely to be involved in pathogenesis. In contrast, type II autoimmune chronic hepatitis is characterized by antibodies against specific cytochrome P-450 isoenzymes that appear to be expressed on the surface membrane of hepatocytes. Immunogenic cytochrome P-450 also can be induced by drug metabolism and haptenation. This indicates that environmental or medicinal xenobiotics may initiate autoimmune liver damage. Primary biliary cirrhosis is characterized by T-cell-mediated inflammation and destruction of interlobular and septal bile ducts and antibodies specific for epitopes of the 2-oxo-acid dehydrogenase multienzyme complex of mitochondria. The histopathologic lesion NSDC also is observed in alloimmune-mediated diseases such as CGVHD and rejection of liver allografts. PSC may be mediated by an immune response against endothelial cells of the peribiliary capillary plexus, with secondary reactions to bile duct epithelial cell antigens. The pathogenesis of alcoholic liver disease is multifactorial, but one component involves an immune response to acetaldehyde-protein adducts. Secondary sensitization of cell-mediated effector mechanisms, endothelial damage, and secretion of noxious cytokines appear to be involved in pathogenesis.
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PMID:Immune disorders of the liver and bile duct. 151 50

It has been pointed out that one of the pathogenetic causes of alcoholic liver injury is the hepatocytic accumulation of exportable proteins due to a decrease in hepatic microtubules caused by acetaldehyde. To confirm and extend this secretory protein accumulation in the hepatocytes, the effects of alcohol treatment on the intracellular transport of secretory protein in the hepatocyte was studied using radioisotope-labeled leucine and fucose. Acute ethanol administration to rats did not show any effects on intrahepatocytic transport and secretion of transferrin. In alcohol pyrazole hepatitis rats, the secretion of transferrin labeled with both radioactive leucine and fucose into the serum was significantly delayed. Delaying in the secretion of fucose-labeled transferrin was more prominent than in leucine-labeled transferrin. This secretory inhibition was accompanied by a corresponding increase in the hepatic retention of both leucine- and fucose-labeled transferrin. At the time of the maximum inhibition of secretion, radioisotope labeled transferrin mainly retained in the Golgi apparatus. These results indicated that movement of secretory proteins along the secretory pathway impaired in alcoholic liver injury and that accumulation of the secretory proteins might play an important role in the development of alcoholic liver injury.
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PMID:Effects of ethanol on the secretion of hepatic secretory protein in rat alcoholic liver injury. 178 19

Gyromitra esculenta (Pers.: Fr.) Fr. and a few other mushrooms have caused severe poisonings and even deaths in humans. Clinical data are characterized primarily by vomiting and diarrhoea, followed by jaundice, convulsions and coma. Gastrointestinal disorders distinguish this poisoning. Frequent consumption can cause hepatitis and neurological diseases. The species of concern are mainly G. esculenta and G. gigas (Kromb.) Cooke (non Phill.). Nevertheless, recent advances in chromatography, biochemistry and toxicology have established that other Ascomycetes species also may prove toxic. Gyromitrin (acetaldehyde methylformylhydrazone, G) and its homologues are toxic compounds that convert in vivo into N-methyl-N-formylhydrazine (MFH), and then into N-methylhydrazine (MH). The toxicity of these chemicals, which are chiefly hepatotoxic and even carcinogenic, has been established through in vivo and in vitro experiments using animals, cell cultures and biochemical systems. When we consider the chemical nature and the reactivity of these natural compounds, we suggest that chemical and biochemical mechanisms may explain their intrinsic biological activity.
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PMID:Poisoning by Gyromitra esculenta--a review. 193 97

Malotilate (diisopropyl 1,3-dithio-2-yldenemalonate), a hepatotrophic drug, was administered to rats with alcohol-pyrazole hepatitis, which is considered to be a suitable experimental model for alcoholic liver injury, in order to elucidate the effects of malotilate on alcoholic liver injury. The number of ballooned hepatocytes and necrotic hepatocytes were smaller in the alcohol-pyrazole hepatitis rats treated with malotilate for 12 weeks (Al-Py Mal group) than for those without malotilate treatment (Al-Py group). Immunohistochemically, the retention of transferrin, one of the secretory proteins from the liver, in the ballooned hepatocytes was inhibited by malotilate. Biochemically, transferrin content in the Golgi fraction of the hepatocytes was significantly lower in the Al-Py Mal group than in the Al-Py group. Hepatic acetaldehyde levels in the Al-Py Mal group were significantly lower than those in the Al-Py group, even though ethanol metabolic rates were not different between the two groups. These results indicated that malotilate prevented the development of hepatocytic injury in alcohol-pyrazole hepatitis by decreasing hepatic acetaldehyde levels and preventing the retention of transferrin in the hepatocytes.
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PMID:Effects of malotilate on alcoholic liver injury in rats. 306 13

We recently presented preliminary data indicating the presence of antibodies against acetaldehyde adducts in sera of over 70% of alcoholic patients. To assess the respective roles of liver disease and alcohol consumption as well as the specificity of this immune response, 141 patients in various stages of alcoholic and nonalcoholic liver diseases were tested by a hemagglutination assay. Sixty-three (73%) of 86 alcoholics had antibody titers above control levels (p less than 0.0001). Alcohol consumption of these individuals was significantly higher (p less than 0.001) than that of those alcoholics with normal titers. Twenty-two patients (39%) with nonalcoholic liver diseases also had elevated levels of antibodies against acetaldehyde adducts (p less than 0.0005); of these, 8 had primary biliary cirrhosis (7 in Stages III and IV), 9 had chronic active hepatitis (6 with cirrhosis) and 5 had acute (virus- or drug-induced) hepatitis. Antibody titers did not correlate with levels of transaminase or alkaline phosphatase activity, nor with bilirubin, and albumin. However, in 52 alcoholics and in nonalcoholic patients with biopsy-confirmed liver disease, the highest titers were seen in the more advanced stages of liver damage. Thus, in addition to alcohol consumption, severity of liver disease may play a role in the appearance of circulating antibodies against acetaldehyde adducts.
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PMID:The role of alcoholism and liver disease in the appearance of serum antibodies against acetaldehyde adducts. 337 72

Rats were fed with two different alcohol-containing (36% of total calories) liquid diets of high fat and low fat (35% and 15% of total calories) with or without 2 mM of pyrazole for 12 weeks. At the 12th week, the serum glutamic oxaloacetic transaminase level was significantly elevated in the alcohol-pyrazole high fat group, but not in the low fat group. Ballooning and necrotic changes of the hepatocytes in the centrolobular area were more prominent in the alcohol-pyrazole high fat group than in the low fat group and alcohol alone groups, indicating that high fat diet accelerates the development of alcohol-pyrazole hepatitis. In the alcohol-pyrazole high fat group, a decrease of hepatic microtubules content and an accumulation of hepatic export proteins in the hepatocytes were found. The protein accumulation was prominent only in the ballooned hepatocytes. Hepatic acetaldehyde levels were significantly higher in the alcohol-pyrazole high fat group than in the alcohol-pyrazole low fat group. These results suggest that the accelerated ethanol metabolism in the nonalcohol dehydrogenase pathway by a high fat diet may play an important role in the development of hepatocytic injuries, by impairing the microtubular function of the hepatocytes.
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PMID:Effects of dietary fat on alcohol-pyrazole hepatitis in rats: the pathogenetic role of the nonalcohol dehydrogenase pathway in alcohol-induced hepatic cell injury. 353 17

Alcohol is the most significant liver poison. Its degradation takes above all place by the alcohol dehydrogenase and the microsomal alcohol-oxidizing system. In the first step of degradation acetaldehyde develops which in enrichment evokes immediately toxic defects on the mitochondrias of the cells of the liver parenchyma and thus introduces a vicious circle. Furthermore, an increased affection of pharmacometabolites as a sequel of the alcohol-conditioned enzyme induction may lead to a defect. Alcohol influences intermediary metabolic functions: the gluconeogenesis is inhibited, multi-layer disturbances in the lipid metabolism lead to fatty degeneration of the liver. A hyperuricaemia results from overproduction in the liver as well as from decreased renal excretion. The proline formation is increased. Distinct increase of the gamma-GT-activity is an early and relatively specific indicator of the alcoholic liver defect. Morphologic and clinical manifestations are fatty degeneration of the liver, hepatitis based on fatty degeneration of the liver and cirrhosis. Apart from dose and duration of the alcohol intake additional factors require consideration. The author adopts a definite attitude to etiopathogeneis and therapeutic possibilities.
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PMID:[Alcohol and the liver]. 611 57

Acetaldehyde in non-toxic doses (15.6 micrograms per start) causes in the inhibition test of the migration of leucocytes an inhibition of the migration in 6/13 of the patients with alcoholic hepatitis, a stimulation of the migration in 6/11 of alcohol cirrhoses. Healthy (n = 16) persons, patients with alcoholic fatty degeneration of the liver (n = 3) as well as non-alcoholic liver diseases (chronic persisting hepatitis, n = 11; chronic active hepatitis, n = 8, cirrhosis, n = 7) did not show this cellular immune reagibility. The inhibition of the migration and the stimulation of the migration, respectively, might develop by hapten autoantigen complexes (altered cytoskeleton?) with release of the factors of inhibition of migration and stimulation of migration, in which case the role of a hapten belongs to acetaldehyde. The results of the tests did not correlate with functional and histological findings of the liver, with the actual consumption of alcohol and also not with haptoglobin phaenotypes. When it is postulated that by acetaldehyde also the release of further lymphokines is mediated, origin and progression of alcoholic hepatitis and alcoholic cirrhosis might be explained immunopathogenetically.
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PMID:[Acetaldehyde-induced leukocyte migration inhibition in alcoholic liver diseases]. 712 38


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