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)

Rats fed a choline deficient diet develop foci of enzyme-altered hepatocytes with subsequent formation of hepatic tumors. This is the only nutritional deficiency that, in itself, causes cancer. We suggested that carcinogenesis is triggered, in part, because of abnormalities in cell signals which regulate cell proliferation and cell death. Because choline deficient rats develop fatty liver (choline is needed for hepatic secretion of certain lipoproteins), we examined whether an important lipid second messenger involved in proliferative signaling, 1,2-sn-diacylglycerol, accumulated in liver and resulted in the prolonged activation of protein kinase C. We observed that 1,2-sn-diacylglycerol accumulated in the plasma membrane from the non-tumor portion of livers of rats fed a choline deficient diet, and that unsaturated free fatty acids, another activator of protein kinase C, also accumulated in deficient livers. Protein kinase C in the hepatic plasma membrane and nucleus of choline deficient rats was elevated for months; this is the only model system which exhibits such prolonged activation of protein kinase C. Premalignant, abnormal hepatic foci were detected only in the deficient rats, and 15% of deficient rats (none of the controls) had hepatocellular carcinoma at 1 year on the diet. In rats, an early event in choline deficiency is an increase in the rate of cell death. In liver from choline deficient rats, we observed an increase in the numbers of liver cells with fragmented DNA (characteristic of programmed cell death; apoptosis). We used a cell culture model (immortalized rat hepatocytes) to study the effects of choline deficiency on apoptosis. Liver cells grown in a choline deficient medium became depleted of choline, accumulated triacylglycerol and 1,2-sn-diacylglycerol, and had increased DNA fragmentation and other morphologic and biochemical changes associated with apoptosis. This model has great potential as a tool for studying the underlying link between choline deficiency and the regulation of the balance between cell proliferation and cell death. We suggest that choline deficiency altered the cell proliferation signals mediated by protein kinase C within liver, and altered cell apoptosis. These changes in cell signaling may be the triggering events which result in hepatic carcinogenesis.
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PMID:Choline and hepatocarcinogenesis in the rat. 764 29

Deficiency of choline and methionine produces hepatic steatosis similar to that seen with ethanol, and supplementation with these lipotropes can prevent ethanol-induced fatty liver. These effects are thought to occur through alterations in membrane phospholipid metabolism, but the mechanism whereby this occurs and the precise nature of the changes brought about by ethanol in the interactions of choline and methionine metabolism remain unclear. Through the known effects on hepatic glutathione (which requires as a precursor a product of methionine catabolism), ethanol might affect hepatic one-carbon metabolism, which requires the participation of both methionine and choline in the transfer of methyl groups. This has been investigated with a radiorespirometric technique to assess the in vivo oxidation of the methyl groups of lipotropes and their intermediates in ethnaol- and control-fed rats. Enzyme activities of one-carbon transfer reactions and the hepatic levels of methionine and alpha-aminobutyrate, an end product of methionine catabolism, have been measured. The effect of ethanol feeding on hepatic S-adenosylmethionine and S-adenosylhomocysteine has also been assessed. Ethanol increases the oxidation to carbon dioxide of the methyl group of methionine by a factor of 2.9 (p = 0.002) and produces a 3.6-fold (p = 0.0001) accumulation of alpha-aminobutyrate, indicating a marked increase in methionine catabolism. Hepatic methionine levels are unchanged by ethanol, however, and this may be explained by a dramatic increase in the turnover of the methyl groups of choline and betaine in response to ethanol (times 3.6 and 4.2, respectively, p < 0.003), suggesting greatly increased use of the choline oxidation pathway to remethylate homocysteine through betaine homocysteine methyltransferase.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The effect of ethanol on one-carbon metabolism: increased methionine catabolism and lipotrope methyl-group wastage. 769 9

The effects of low-meat-protein diets on hypercholesterolemia and proteinuria were studied in rats with nephrotoxic serum nephritis. After an injection of nephrotoxic serum, rats were given either a 20% meat-protein diet (20M), an 8.5%-meat-protein diet (8.5M), or a valine-(0.05%)-supplemented 8.5%-meat-protein diet (8.5MV) for 12 days. Urinary protein excreted from the 20M-fed, nephritic control rats increased rapidly and linearly during the initial 3 days, and thereafter the high excretion rate was maintained for up to 12 days. Two low-meat-protein diets (8.5M, 8.5MV) commenced to suppress proteinuria 3 days after feeding and the suppression was preserved during the rest of the experimental periods. Compared with the 20M, both low-meat-protein diets significantly improved hypercholesterolemia induced in this nephritic model. These two diets significantly enhanced the fecal excretion of neutral sterols. They caused neither fatty liver nor severe growth retardation. These effects of 8.5MV were identical to those of 8.5M. The results suggest that low-meat-protein feeding, without amino acid supplementation, improves hypercholesterolemia and proteinuria in nephritis without severe protein malnutrition. The results also suggest that the hypocholesterolemic effect of the low-meat-protein diets may be, at least in part, attributed to increased fecal excretion of steroids.
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PMID:Reduction of hypercholesterolemia and proteinuria in nephritic rats by low-meat-protein diets. 775 76

Brown bowel syndrome is a rare intestinal disorder associated with the deposition of lipofuscin pigment in the smooth muscle cells. We report two such cases presenting with intestinal pseudo-obstruction, abdominal pain, and body weight loss. Both cases had malabsorption and fatty liver. Exploratory laparotomy revealed brownish discoloration of the small bowel wall and enlargement of mesenteric lymph nodes. Light microscopy, autofluorescence and ultrastructure studies confirmed the deposition of lipofuscin pigments in the intestinal muscle cells and reticuloendothelial cells of mesenteric lymph nodes. In addition, the calf muscle biopsy of case 1 displayed myopathy and fatty replacement. Skeletal muscle strength of both patients was partially restored after parenteral and oral vitamin E supplement and other conservative treatment, but gastrointestinal symptoms of both patients continued to deteriorate. Thus, brown bowel syndrome associated with prolonged and severe malnutrition and possibly vitamin E deficiency appears only partially responsive to vitamin E supplementation.
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PMID:Brown bowel syndrome: report of two cases. 791 59

Choline deficiency, via deprivation of labile methyl groups, is associated with a greatly increased incidence of hepatocarcinoma in experimental animals. This dietary deficiency also causes fatty liver, because choline is needed for hepatic secretion of lipoproteins. We hypothesized that fatty liver might be associated with the accumulation of 1,2-sn-diradylglycerol and subsequent activation of protein kinase C. Several lines of evidence indicate that cancers might develop secondary to abnormalities in protein kinase C-mediated signal transduction. We observed that rats fed a choline-deficient diet for 1, 6, or 27 weeks had increased hepatic concentrations of 1,2-diradylglycerol. At 1 and 6 weeks, hepatic plasma membrane from choline-deficient rats had increased concentrations of 1,2-sn-diacylglycerol and 1-alkyl, 2-acylglycerol, with the latter accounting for 20-26% of membrane 1,2-sn-diradylglycerol (as compared with only 2-5% in controls). Protein kinase C activity was increased in hepatic plasma membrane at 1 week of choline deficiency. By Western blotting there was an increase in the amount of protein kinase C zeta and a decrease in the amount of protein kinase C delta in liver at 1 week. By 6 weeks of choline deficiency, hepatic plasma membrane and cytosolic protein kinase C (PKC) activities were increased significantly, with increased amounts of hepatic plasma membrane protein kinase C alpha, and delta detected by Western blotting. Glycogen synthase activity in liver was diminished after 1 week of choline deficiency; this enzyme is inhibited by PKC-mediated phosphorylation. We suggest that choline deficiency perturbed PKC-mediated transmembrane signaling within liver and that this contributed to the development of hepatic cancer in these animals.
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PMID:Accumulation of 1,2-sn-diradylglycerol with increased membrane-associated protein kinase C may be the mechanism for spontaneous hepatocarcinogenesis in choline-deficient rats. 842 Sep 80

We have previously demonstrated that low-casein diets supplemented with cystine and threonine reduced hyperlipidemia and proteinuria in nephritic rats without noticeable protein malnutrition. In the present study, we examined whether or not a low-casein diet supplemented with methionine, sulfur amino acid other than cystine, and threonine would ameliorate the symptoms without protein malnutrition in rats with nephrotoxic serum nephritis by feeding experimental diets for 10 days. A methionine-threonine-supplemented 8.5% casein diet (8.5 CMT), when compared with a basal 20% casein diet, improved hypoalbuminemia as well as hyperlipidemia and proteinuria without noticeable growth retardation and fatty liver induction in nephritic rats. Fecal bile acid excretion and microsomal cholesterol 7 alpha-hydroxylase activity were enhanced by 8.5CMT feeding. These results suggest that amino acid-balanced low protein diet would have a beneficial effect on the symptoms of nephritis. They also suggest that the hypocholesterolemic action of 8.5CMT may be, at least in part, due to increased fecal bile acid excretion accompanied by elevated microsomal cholesterol 7 alpha-hydroxylase activity.
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PMID:Improvement of hyperlipidemia and proteinuria without noticeable growth retardation by feeding a methionine and threonine supplemented low-casein diet to nephritic rats. 853 82

Three Japanese brothers with progressive deterioration of hepatic function and fatty degeneration of the liver eventually leading to hepatic encephalopathy were recently encountered. Each of them had a congenital intrahepatic portosystemic venous shunt due to a patent ductus venosus. Liver dysfunction and hepatic steatosis reverted to normal with surgical correction of the ductus venosus. Our observations suggest that impairment of liver function occurs first in the presence of malnutrition related to a reduction of blood in the portal vein. Hepatic steatosis is a consequence of a depleted metabolism of hepatocytes. Congenital portosystemic venous shunt due to a patent ductus venosus in this family has a genetic background.
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PMID:Three brothers with progressive hepatic dysfunction and severe hepatic steatosis due to a patent ductus venosus. 896 24

Hepatic lipidosis occurs when lipid mobilized to the liver exceeds lipid leaving the liver via formation of very-low-density lipoproteins or by oxidation. Hepatic lipidosis in cats is associated with overt liver dysfunction. In affected cats, excess lipid is mobilized to the liver because of starvation. Removal of hepatic lipid may be impaired because of protein malnutrition, a relative carnitine deficiency, or oxidative damage to peroxisomes and other hepatic organelles. Hepatic lipidosis occurs in adult cats, and is manifest by signs of weight loss, depression, vomiting, and icterus. Diagnosis is achieved by evaluating laboratory and diagnostic imaging data, in conjunction with a liver biopsy. Aggressive tube feeding is the treatment of choice. With this treatment, survival rates are 60% to 80%.
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PMID:Feline hepatic lipidosis. 905 87

A number of hepatobiliary tract and pancreatic disorders have been documented in patients with celiac disease. Some disorders have shared immunological or genetic factors, including chronic hepatitis, primary biliary cirrhosis and sclerosing cholangitis. Other hepatic or pancreatic pathological changes in celiac disease have been documented with severe malnutrition and malabsorption, including hepatic steatosis and pancreatic insufficiency, sometimes with pancreatic calcification. Finally, celiac disease may be associated with other very rare hepatic complications, such as hepatic T cell lymphoma.
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PMID:Hepatobiliary tract and pancreatic disorders in celiac disease. 911 4

Malnutrition and micronutrient deficiencies are common in patients with liver diseases. The pathogenesis of protein-energy malnutrition in cirrhosis involves many factors, including poor oral intake, malabsorption, and metabolic abnormalities similar to stress. Encephalopathy may complicate cirrhosis but is usually not caused by diet. Protein restriction is only necessary in rare patients with refractory encephalopathy. The use of branched-chain amino-acid solutions is not supported by the literature. Chronic liver diseases without cirrhosis are not usually associated with protein-energy malnutrition, but vitamin and mineral deficiencies are common, especially with significant cholestasis. Fatty liver may result from excessive triglyceride uptake and production by the liver or by a secretory defect. Therapy for fatty liver depends on its cause. Chronic total parenteral nutrition may induce fatty liver and inflammation especially in patients with short-bowel syndrome. Deficiency of choline in parenteral nutrition has been proposed as the mechanism for liver disease. Acute liver diseases such as fulminant hepatic failure or alcoholic hepatitis are considered hypercatabolic diseases and thus require prompt nutritional intervention with a high-calorie enteral or parenteral formula. In fulminant hepatic failure, low-protein, fluid-restricted formulas are recommended.
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PMID:Nutrition and liver diseases. 1098 Sep 70


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