Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0015695 (fatty liver)
 13,941 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. Two strains of single comb White Leghorn birds, one susceptible to fatty liver rupture (UCD-003) and a normal commercial strain, were injected with iron nitrilotriacetate and the extent of hepatic lipid peroxidation that occurred was estimated by measuring concentrations of malondialdehyde (MDA). 2. Higher concentrations of MDA were found in the livers of the UCD-003 strain than in the normal birds after injection of iron nitrilotriacetate. No differences were found in the activities of glutathione peroxidase, superoxide dismutase and catalase in the livers of untreated birds of either strain. 3. The degree of unsaturation of the fats in the livers of the two strains was similar. However, the UCD-003 birds had a significantly higher content of liver fat than the normal birds. The increased concentrations of liver fat could account for the increased lipid peroxidation in the UCD-003 birds. 4. The increased incidence of liver haemorrhage that occurs in the UCD-003 birds may be caused by the increased susceptibility of these birds to hepatic lipid peroxidation.
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PMID:Enhanced induction of hepatic lipid peroxidation by ferric nitrilotriacetate in chickens susceptible to fatty liver rupture. 162 19

In a full life cycle test, newly hatched eggs of zebra fish, Brachydanio rerio, were reared to sexual maturity under continuous exposure to 40, 80, 110, 130, and 150 micrograms/liter lindane, gamma-hexachlorocyclohexane. The effects of lindane were investigated by recording behavior and survival of the F0- and F1-generation as well as morphological alterations in liver ultrastructure of F0. Changes in peroxisomes were visualized by cytochemical staining for catalase activity with diaminobenzidine. Whereas behavioral changes can already be observed at 40 micrograms/liter, survival and number of eggs in F0 as well as survival and growth of F1 are unaffected by up to 80 micrograms/liter lindane. At concentrations greater than or equal to 110 micrograms/liter, survival of larvae is reduced already after 35 days, and mortality is 100% after 3 months. From 40 micrograms/liter, liver ultrastructure displays a microvesicular fatty vacuolation (steatosis) characterized by lipid deposition within the cisternae of the RER. At 40 micrograms/liter, this highly specific pathological change is accompanied by accumulation of hepatic macrovesicular triglyceride droplets, glycogen depletion, and the occurrence of club-shaped mitochondria. Additional alterations at 80 micrograms/liter comprise proliferation of SER in males and progressive fractionation of RER in females, stacking of club-shaped mitochondria, a conspicuous decrease in peroxisomal catalase activity, infiltration of macrophages into the liver parenchyma, and a significant stimulation of hepatocytic mitosis. Among several substances tested so far in zebra fish (4-nitrophenol, 4-chloroaniline 3,4-dichloroaniline, atrazine, lindane), lindane is the only compound inducing behavioral changes and hepatic steatosis in conjunction with a reduction in fertility. With regard to the relative sensitivity of the methods applied, behavioral and cytological studies appear more responsive to lindane exposure than survival studies.
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PMID:Hepatic steatosis in zebra fish (Brachydanio rerio) induced by long-term exposure to gamma-hexachlorocyclohexane. 169 56

Serum catalase activity was moderately increased in fatty liver, acute alcoholic hepatitis and in the decompensated form of cardiac circulatory failure. It showed significant increase in acute yellow atrophy and in toxic hepatitis while no changes were detected in liver cirrhosis and viral hepatitis. Serum catalase activity showed a good correlation (r = 0.820) with the serum glutamate dehydrogenase activity. In accordance with our results, the inexpensive assay of serum catalase activity is suggested for the detection of severe liver cell damage.
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PMID:Serum catalase enzyme activity in liver diseases. 345 88

We investigated the hepatocellular peroxisomes in 27 patients with steatosis of the liver by means of catalase cytochemistry, light and electron microscopic study, and morphometry. Seven normal human livers were used as controls. In our patients, fatty liver was mainly associated with alcohol abuse or obesity. Indications for a slight decrease in catalase activity and for a proliferation were found in visual evaluation of the peroxisomes. Morphometric analysis showed a significant decrease in mean peroxisomal diameter (to 87%) and a simultaneous significant elevation to numerical density of the peroxisomes (to 188%); this resulted in a normal volume density and a significant increase to (133%) in surface density. However, individual differences were found. No differences in peroxisomal characteristics were found between fatty livers of different causes. A significant inverse linear correlation between mean peroxisomal diameter and numerical density was found in patients with fatty livers. Because a similar correlation was also found when control data were added to the fatty liver data, we hypothesize that the peroxisomal compartment in human fatty livers is adapted in such a way to permit the same metabolic efficiency as in control livers.
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PMID:Alterations of peroxisomes in steatosis of the human liver: a quantitative study. 765 78

Peroxisome proliferator-activated receptor (PPAR) and retinoid x receptor (RXR) play important roles in fatty acid metabolism. The present study examined the regulation of retinoic acid receptor (RAR alpha, beta, and gamma), RXR (alpha, beta, and gamma), PPAR, cytochrome P450 2E1 (CYP2E1), catalase, and beta-actin gene expression in chronic alcoholic liver disease in the rat. The results demonstrated that the expression of genes for RAR and RXR isoforms and catalase were not altered by ethanol in the fatty liver. In contrast, the levels of PPAR and CYP2E1 mRNAs were down- and up-regulated by ethanol in the liver, respectively. The levels of CYP2E1 mRNAs correlated positively with blood alcohol levels (BAL). In addition, ethanol induced expression of beta-actin mRNA was also proportional to the BAL. The level of PPAR mRNA and the content of polyunsaturated fatty acid decreased in ethanol-fed rat livers. Decreased PPAR gene expression in ethanol-fed rats might result from a decrease in the content of polyunsaturated fatty acid in the liver. However, the activities of enzymes involved in hepatic lipid metabolism, including acyl CoA synthetase, acyl CoA oxidase, catalase, and protein kinase C, were not changed by ethanol treatment. The significance of down-regulation of PPAR gene in alcohol liver disease is discussed.
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PMID:Expression of the peroxisome proliferator-activated receptor gene is decreased in experimental alcoholic liver disease. 783 30

Increased hepatic oxidative stress with ethanol administration is hypothesized to be caused either by enhanced pro-oxidant production or decreased levels of antioxidants or both. We used the intragastric feeding rat model to assess the relationship between hepatic antioxidant enzymes and pathological liver injury in animals fed different dietary fats. Male Wistar rats (5 per group) were fed ethanol with either medium-chain triglycerides (MCTE), palm oil (PE), corn oil (CE), or fish oil (FE). Control animals were fed isocaloric amounts of dextrose instead of ethanol with the same diets. The following were evaluated in each group: liver pathology, lipid peroxidation, manganese superoxide dismutase (MnSOD) levels, copper-zinc SOD (CuZnSOD) levels, glutathione peroxidase (GPX) levels, and catalase (CAT) levels. All enzymes were evaluated using activity assays and immunoblots. Rats fed FE showed the most severe pathology (fatty liver, necrosis, and inflammation), those fed CE showed moderate changes, those fed PE showed fatty liver only, and those fed MCTE were normal. Parameters indicative of lipid peroxidation (conjugated dienes and thiobarbituric acid-reactive substances) were also greater in rat livers from animals fed the diets high in polyunsaturated fatty acids (CE and FE). CuZnSOD, GPX, and CAT activities showed an inverse correlation (r=-.92, P < .01) with severity of pathological injury, with the lowest levels for both enzymes found in FE-fed rats. Decreased enzyme activity in CE- and FE-fed rats was accompanied by similar decreases in immunoreactive protein. Ethanol administration did not cause significant decreases in enzyme activity in groups that showed no necroinflammatory changes (MCTE and PE). MnSOD activity showed no significant change in any ethanol-fed group. Our results show that decreases in CuZnSOD, GPX, and CAT occur in rats showing pathological liver injury and also having the highest levels of lipid peroxidation. These results suggest that feeding dietary substrates that enhance lipid peroxidation can exacerbate both ethanol-induced oxidative damage as well as necroinflammatory changes. The decrease in activity of antioxidant enzymes observed in animals fed diets high in polyunsaturated fatty acids and ethanol could possibly increase the susceptibility to oxidative damage and further contribute to ethanol-induced liver injury.
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PMID:Increased lipid peroxidation and impaired antioxidant enzyme function is associated with pathological liver injury in experimental alcoholic liver disease in rats fed diets high in corn oil and fish oil. 958 86

Since ethanol metabolism predominantly takes place in the liver it is not surprising that hepatic intermediary metabolism is strikingly influenced. Alcohol is metabolized via three enzyme systems: alcohol dehydrogenase (ADH), microsome ethanol oxidizing system (MEOS) and catalase. The ADH reaction produces reducing equivalents as NADH which results in various metabolic disorders such as hyperproteinemia IV and V, hypoglycaemia, lactacidosis, hyperuricaemia, and certain forms of porphyria. The metabolism of hormones is also disturbed. Alcohol fatty liver is a direct consequence of NADH production. Alcoholic liver disease comprises of fatty liver, alcoholic hepatitis and cirrhosis. Risk factors of alcoholic liver disease are the amount of alcohol consumed, drinking pattern, female gender and certain genetic predispositions. Alcoholic hepatitis is characterized by a typical clinical and laboratory feature, and specific heaptic morphology. Poor prognostic factors are continuous alcohol consumption, cholestatis and perivenular fibrosis. Alcoholic cirrhosis has similar complications as cirrhosis of other etiology. Therapy includes abstinence, antioxidative drugs, steroids, and S-adenosylmethionine. Liver transplantation is of long-term benefit.
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PMID:[Alcohol and the liver]. 1080 81

It is not known why viable hepatocytes in fatty livers are vulnerable to necrosis, but associated mitochondrial alterations suggest that reactive oxygen species (ROS) production may be increased. Although the mechanisms for ROS-mediated lethality are not well understood, increased mitochondrial ROS generation often precedes cell death, and hence, might promote hepatocyte necrosis. The aim of this study is to determine if liver mitochondria from obese mice with fatty hepatocytes actually produce increased ROS. Secondary objectives are to identify potential mechanisms for ROS increases and to evaluate whether ROS increase uncoupling protein (UCP)-2, a mitochondrial protein that promotes ATP depletion and necrosis. Compared to mitochondria from normal livers, fatty liver mitochondria have a 50% reduction in cytochrome c content and produce superoxide anion at a greater rate. They also contain 25% more GSH and demonstrate 70% greater manganese superoxide dismutase activity and a 35% reduction in glutathione peroxidase activity. Mitochondrial generation of H(2)O(2) is increased by 200% and the activities of enzymes that detoxify H(2)O(2) in other cellular compartments are abnormal. Cytosolic glutathione peroxidase and catalase activities are 42 and 153% of control values, respectively. These changes in the production and detoxification of mitochondrial ROS are associated with a 300% increase in the mitochondrial content of UCP-2, although the content of beta-1 ATP synthase, a constitutive mitochondrial membrane protein, is unaffected. Supporting the possibility that mitochondrial ROS induce UCP-2 in fatty hepatocytes, a mitochondrial redox cycling agent that increases mitochondrial ROS production upregulates UCP-2 mRNAs in primary cultures of normal rat hepatocytes by 300%. Thus, ROS production is increased in fatty liver mitochondria. This may result from chronic apoptotic stress and provoke adaptations, including increases in UCP-2, that potentiate necrosis.
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PMID:Mitochondrial adaptations to obesity-related oxidant stress. 1086 May 43

The mechanism of hepatocarcinogenesis in hepatitis C virus (HCV) infection is still undefined. One possibility is the involvement of oxidative stress, which can produce genetic mutations as well as gross chromosomal alterations and contribute to cancer development. We recently showed that after a long period, the core protein of HCV induces hepatocellular carcinoma (HCC) in transgenic mice with marked hepatic steatosis but without inflammation, indicating a direct involvement of HCV in hepatocarcinogenesis. To elucidate the biochemical events before the development of HCC, we examined several parameters of oxidative stress and redox homeostasis in a mouse model of HCV-associated HCC. For young mice ages 3-12 months, there was no significant difference in the levels of hydroperoxides of phosphatidylcholine (PCOOH) and phosphatidylethanolamine in liver tissue homogenates between transgenic and nontransgenic control mice. In contrast, the PCOOH level was increased by 180% in old core gene transgenic mice > 16 months old. Concurrently, there was a significant increase in the catalase activity, and there were decreases in the levels of total and reduced glutathione in the same mice. A direct in situ determination by chemiluminescence revealed an increase in hydroperoxide products by 170% even in young transgenic mice, suggesting that hydroperoxides were overproduced but immediately removed by an activated scavenger system in young mice. Electron microscopy revealed lipofuscin granules, secondary lysosomes carrying various cytoplasmic organelles, and disruption of the double membrane structure of mitochondria, and PCR analysis disclosed a deletion in mitochondrial DNA. Interestingly, alcohol caused a marked increase in the PCOOH level in transgenic mice, suggesting synergism between alcohol and HCV in hepatocarcinogenesis. The HCV core protein thus alters the oxidant/antioxidant state in the liver in the absence of inflammation and may thereby contribute to or facilitate, at least in part, the development of HCC in HCV infection.
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PMID:Oxidative stress in the absence of inflammation in a mouse model for hepatitis C virus-associated hepatocarcinogenesis. 1138 61

We studied the effect of administering glycine on tissue lipid peroxidation and enzymic and non-enzymic antioxidants in experimental hepatotoxic Wistar rats. Hepatotoxicity was induced by administering ethanol for 30 days by intragastric intubation. Glycine administered at a dose of 0.6 g kg(-1) body weight for 30 days significantly inhibited the severe oxidative stress as evidenced by the decreased levels of liver and brain thiobarbituric acid reactive substances (TBARS) and hydroperoxides compared to control. The activities of enzymic and non-enzymic antioxidants such as reduced glutathione (GSH), glutathione peroxidase (GPx), superoxide dismutase (SOD) and catalase (CAT) in the liver and brain were significantly elevated on glycine supplementation as compared to the untreated alcohol fed rats. The levels of serum vitamin E and vitamin C were also increased to near normal levels on glycine treatment. Microscopic examination of alcohol treated rat liver showed inflammatory cell infiltrates and fatty changes, which were alleviated on treatment with glycine. Alcohol treated rat brain demonstrated oedma, which was significantly lowered on treatment with glycine. Thus our study shows that administering glycine to alcohol supplemented rats, markedly reduced the oxidative stress and elevated the enzymic and non-enzymic antioxidants in the liver and brain, which a was associated with a reversal of hepatic steatosis and cerebral oedma.
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PMID:Effect of glycine on oxidative stress in rats with alcohol induced liver injury. 1496 23


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