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Query: UMLS:C0015695 (fatty liver)
 13,941 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Two experiments were carried out to determine whether administration of lactate to biotin-deficient chicks induced fatty liver and kidney syndrome (FLKS). 2. The results suggest that increased serum lactate concentrations are a consequence of the syndrome rather than a contributory factor in its incidence. 3. The increase in liver lipids of birds affected by FLKS was not associated with an increase in the specific activity of the hepatic lipogenic enzyme acetyl CoA carboxylase accept when birds developed FLKS spontaneously in experiment 2. 4. Some biotin-deficient chicks did not show physical symptoms of deficiency although mean liver biotin concentrations were low (0.31 microgram/g liver).
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PMID:Lactate administration and fatty liver and kidney syndrome development in biotin-deficient chicks. 3 66

Varying degrees of biotin deficiency were induced by adding freeze-dried, raw egg white to the diet of broiler chicks. Aspects of liver metabolism were studied with reference to fatty liver and kidney syndrome. Mortality was low with 11.8 g egg white/kg diet, or less, but with 17.7 g/kg or more, mortality was very high. High mortality was observed with less than 0.33 microgram biotin/g liver. Associated with low concentrations of liver biotin were substantial increases in liver weight and lipid content in starved birds. The increased liver lipid content was not observed in birds fed ad libitum. The increased liver lipid content in biotin-deficient, starved birds was not reflected in the specific activities of hepatic lipogenic enzymes or hepatic lipogenesis in vivo measured by the incorporation of tritium from 3H-labelled water into liver lipid. Biotin deficiency affected the specific activities of the biotin-requiring enzymes, pyruvate carboxylase and acetyl CoA carboxylase, differently; the latter was unaffected whereas the former decreased concomitantly with liver biotin concentration.
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PMID:Biotin deficiency and liver metabolism in relation to fatty liver and kidney syndrome. 67 52

This study was conducted to investigate the long-term effect of dietary medium-chain triglyceride (MCT) as compared with that of corn oil feeding on lipid metabolism in rats. Both serum cholesterol and triglyceride levels in MCT-fed rats showed significant decrease during the experimental period of eight weeks, although liver cholesterol and triglyceride contents were not distinguishable between the two groups. Significant elevation of the activity of lipogenic enzymes, such as fatty acid synthetase (FAS) and malic enzyme (ME) of the liver, was observed in MCT-fed rats without any fat accumulation of the liver (fatty liver). The increase of lipogenic enzyme activity was accompanied by a significant reduction of essential fatty acids (EFA) such as 18:2 (omega6) and 20:4 (omega6) in total liver lipid. In contrast, hepatic beta-hydroxy-beta-methylglutaryl CoA(HMG-CoA) reductase activity was significantly decreased in MCT-fed rats, that would play an important role in achieving hypocholesterolemia. From these results obtained in a long-term experiment, it is concluded that exogenous MCT depresses the key enzyme catalyzing cholesterol synthesis with a concomitant elevation of lipogenic enzyme activity in the rat liver.
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PMID:Long-term effect of medium-chain triglyceride on hepatic enzymes catalyzing lipogenesis and cholesterogenesis in rats. 85 48

The purpose of this study was to investigate early biochemical changes and possible mechanisms via which alkyl(C12)thioacetic acid (CMTTD, blocked for beta-oxidation), alkyl(C12)thiopropionic acid (CETTD, undergo one cycle of beta-oxidation) and a 3-thiadicarboxylic acid (BCMTD, blocked for both omega- (and beta-oxidation) influence the peroxisomal beta-oxidation in liver of rats. Treatment of rats with CMTTD caused a stimulation of the palmitoyl-CoA synthetase activity accompanied with increased concentration of hepatic acid-insoluble CoA. This effect was already established during 12-24 h of feeding. From 2 days of feeding, the cellular level of acid-insoluble CoA began to decrease, whereas free CoASH content increased. Stimulation of [1-14C]palmitoyl-CoA oxidation in the presence of KCN, palmitoyl-CoA-dependent dehydrogenase (termed peroxisomal beta-oxidation) and palmitoyl-CoA hydrolase activities were revealed after 36-48 h of CMTTD-feeding. Administration of BCMTD affected the enzymatic activities and altered the distribution of CoA between acid-insoluble and free forms comparable to what was observed in CMTTD-treated rats. It is evident that treatment of peroxisome proliferators (BCMTD and CMTTD), the level of acyl-CoA esters and the enzyme activity involved in their formation precede the increase in peroxisomal and palmitoyl-CoA hydrolase activities. In CMTTD-fed animals the activity of cyanide-insensitive fatty acid oxidation remained unchanged when the mitochondrial beta-oxidation and carnitine palmitoyltransferase operated at maximum rates. The sequence and redistribution of CoA and enzyme changes were interpreted as support for the hypothesis that substrate supply is an important factor in the regulation of peroxisomal fatty acid metabolism, i.e., the fatty acyl-CoA species appear to be catabolized by peroxisomes at high rates only when uptake into mitochondria is saturated. Administration of CETTD led to an inhibition of mitochondrial fatty acid oxidation accompanied with a rise in the concentration of acyl-CoA esters in the liver. Consequently, fatty liver developed. The peroxisomal beta-oxidation was marginally affected. Whether inhibition of mitochondrial beta-oxidation may be involved in regulation of peroxisomal fatty acid metabolism and in development of fatty liver should be considered.
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PMID:Fatty acid metabolism in liver of rats treated with hypolipidemic sulphur-substituted fatty acid analogues. 197 17

Treatment of normolipidemic rats by alkylthiopropionic acid (CETTD), resulted in a dose- and time-dependent increase in total dihydroxyacetone phosphate acyltransferase (DHAPAT) activity, in extent comparable to that of 3-thiadicarboxylic acid (BCMTD) and alkylthioacetic acid (CMTTD). Thus, in CETTD- and CMTTD-treated rats, the specific DHAPAT activity increased in the microsomal, peroxisomal and mitochondrial fractions. In contrast, repeated administration of the peroxisome proliferator, BCMTD, decreased the specific DHAPAT activity both in the peroxisomal fraction and in purified peroxisomes. A three-fold increase in specific activity was, however, revealed in the mitochondrial fraction. Whether the variation of the DHAPAT activity in the mitochondrial and microsomal fractions among the feeding groups can be explained by increased number of enlarged and small peroxisomes sedimenting in the fractions, are to be considered. Subcellular fractionation studies confirmed previous findings that rat liver glycerophosphate acyltransferase (GPAT) was located both in mitochondria and the microsomal fraction. BCMTD was considerably more potent than CMTTD in stimulating the microsomal and mitochondrial GPAT activities. Administration of CETTD marginally affected the isoenzymes of GPAT. Diacylglycerol acyltransferase (DGAT) activity was increased by 35% in BCMTD and CMTTD treated rats, but by administration of CETTD the enzyme activity was decreased by more than 80%. The acyl-CoA cholesterol acyltransferase (ACAT) activity was marginally affected in animals treated with BCMTD, CMTTD and CETTD. Thus, the results indicate that the initial steps in the synthesis of triacylglycerols and ether glycerolipids as well as the last step in triacylglycerol synthesis could not be identified as mediating the fat accumulation or the lowering of triacylglycerol content in liver of CETTD, or BCMTD and CMTTD treated rats. On the other hand, CMTTD increased the palmitoyl-CoA oxidation in mitochondria, and CETTD considerably inhibited the activity. Therefore, it is conceivable that the development of fatty liver with CETTD is mostly due to inhibition of mitochondrial beta-oxidation.
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PMID:Effect of 3- and 4-thia-substituted fatty acids on glycerolipid metabolism and mitochondrial beta-oxidation in rat liver. 224 30

The concentrations of malonyl-CoA, citrate, ketone bodies and long-chain acylcarnitine were measured in freeze-clamped liver samples from fed or starved normal, partially hepatectomized or sham-operated rats. These parameters were used in conjunction with measurements of the concentration of plasma non-esterified fatty acids and the rates of hepatic lipogenesis to obtain correlations between rates of fatty acid delivery to the liver, lipogenesis and fatty acid oxidation to ketone bodies and CO2. These correlations indicated that the development of fatty liver after partial hepatectomy is due to an increased partitioning of long-chain acyl-CoA towards acylglycerol synthesis and away from acylcarnitine formation. However, this did not appear to be due to an altered relationship between hepatic malonyl-CoA concentration and acylcarnitine formation. For any concentration of long-chain acylcarnitine, the concentrations of both hepatic and blood ketone bodies were significantly lower in partially hepatectomized rats than in normal or sham-operated animals. This indicated that a lower proportion of the product of beta-oxidation was used for ketone-body formation and more for citrate synthesis in the regenerating liver, especially during the first 24 h after resection. This inference was supported by the changes in hepatic citrate concentrations observed. The high rates of lipogenesis that occurred in the liver remnant were accompanied by an altered relationship between lipogenic rate and hepatic malonyl-CoA concentration, such that much lower concentrations of malonyl-CoA were associated with any given rate of lipogenesis. These adaptations are discussed in relation to the requirements by the remnant for high rates of energy formation through the tricarboxylic acid cycle during the first 24 h after resection, and the possibility that cycling between fatty acid oxidation and synthesis may occur to a greater degree in regenerating liver.
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PMID:Altered interactions between lipogenesis and fatty acid oxidation in regenerating rat liver. 359 2

A boy suffering from recurrent episodes of acute encephalopathy and hepatic steatosis died at 40 months of age. The symptoms started when he was 13 months old and he appeared completely normal in the intervals. Pertinent biologic findings were as follows: slight labile hypoglycemia and hyperammonemia having no direct correlation with neurologic derangement, no elevation of ammonia levels in loading tests, complete failure to generate ketones and the absence of organic aciduria during a fast, normal plasma carnitine levels and normal activity of long and medium chain acyl-CoA-dehydrogenase in skin fibroblasts. Pertinent autopsy findings were marked steatosis of liver and renal tubular cells with many foamy histiocytes in bone marrow. An error in metabolic pathways, particularly a derangement in lipid metabolism, was considered.
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PMID:[Acute encephalopathy and recurrent hepatic steatosis with normal long and medium chain fatty acyl-CoA-dehydrogenase activity]. 361 69

Fatty liver and kidney syndrome (FLKS), a naturally occurring but experimentally reproducible disease in chickens, has several clinical, pathological, and biochemical features in common with Reye's syndrome. Because of this, it has been suggested that FLKS may serve as an animal model of Reye's syndrome. We have examined, therefore, various parameters characteristic of Reye's syndrome in chickens affected with FLKS to further delineate the similarities and differences between the two disorders. Plasma glucose concentrations were significantly lower in chickens affected with FLKS which may be caused by the significantly reduced activity of pyruvate carboxylase in all FLKS-affected animals. The activity of propionyl CoA carboxylase was low in only the most severely affected chickens, and beta-methylcrotonyl CoA carboxylase showed no difference when compared with controls. This may be due to variable sensitivities of the three carboxylases to marginal biotin deficiency which occurs with FLKS. Plasma ammonia concentrations and activities of glutamic oxaloacetic transaminase and glutamic pyruvic transaminase, however, were not elevated in the affected birds. Histological changes in the liver and kidney were noted in affected chickens, but these changes were not identical with those observed in Reye's syndrome. Although the mechanisms of nitrogen elimination in fowl differ from those in humans, failure to demonstrate hyperammonemia, elevated serum transaminase activities, or similar histological changes in tissues of affected birds indicates that FLKS is not an appropriate model for the study of Reye's syndrome.
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PMID:Fatty liver and kidney syndrome in chickens as an animal model for Reye's syndrome. 664 49

Three children in two families presented in early childhood with episodes of illness associated with fasting which resembled Reye's syndrome: coma, hypoglycemia, hyperammonemia, and fatty liver. One child died with cerebral edema during an episode. Clinical studies revealed an absence of ketosis on fasting (plasma beta-hydroxybutyrate less than 0.4 mmole/liter) despite elevated levels of free fatty acids (2.6-4.2 mmole/liter) which suggested that hepatic fatty acid oxidation was impaired. Urinary dicarboxylic acids were elevated during illness or fasting. Total carnitine levels were low in plasma (18-25 mumole/liter), liver (200-500 nmole/g), and muscle (500-800 nmole/g); however, treatment with L-carnitine failed to correct the defect in ketogenesis. Studies on ketone production from fatty acid substrates by liver tissue in vitro showed normal rates from short-chain fatty acids, but very low rates from all medium and long-chain fatty acid substrates. These results suggested that the defect was in the mid-portion of the intramitochondrial beta-oxidation pathway at the medium-chain acyl-CoA dehydrogenase step. A new assay for the electron transfer flavoprotein-linked acyl-CoA dehydrogenases was used to test this hypothesis. This assay follows the decrease in electron transfer flavoprotein fluorescence as it is reduced by acyl-CoA-acyl-CoA dehydrogenase complex. Results with octanoyl-CoA as substrate indicated that patients had less than 2.5% normal activity of medium-chain acyl-CoA dehydrogenase. The activities of short-chain and isovaleryl acyl-CoA dehydrogenases were normal; the activity of long-chain acyl-CoA dehydrogenase was one-third normal. These results define a previously unrecognized inherited metabolic disorder of fatty acid oxidation due to deficiency of medium-chain acyl-CoA dehydrogenase.
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PMID:Medium-chain acyl-CoA dehydrogenase deficiency in children with non-ketotic hypoglycemia and low carnitine levels. 664 97

Male rats developed fatty liver after being fed on an ethanol-containing diet for 31 days. Liver mitochondria from these animals catalysed ATP synthesis at a slower rate when compared with mitochondria from pair-fed control rats (control mitochondria), and demonstrated lowered respiratory control with succinate as substrate, owing to a decrease in the State-3 respiratory rate. Respiration in the presence of uncoupler was comparable in mitochondria from both groups of rats. Translocation of both ATP and ADP was decreased in mitochondria from ethanol-fed rats, with ADP uptake being lowered more dramatically by ethanol feeding. Parameters influencing adenine nucleotide translocation were investigated in mitochondria from ethanol-fed rats. Experiments performed suggested that lowered adenine nucleotide translocation in these mitochondria is not the result of inhibition of the translocase by either long-chain acyl-CoA derivatives or unesterified fatty acids. Analysis of endogenous adenine nucleotides in these mitochondria revealed lowered ATP concentrations, but no decrease in total adenine nucleotides. In experiments where the endogenous ATP in these mitochondria was shifted to higher concentrations by incubation with oxidizable substrates or defatted bovine serum albumin, the rate of ADP translocation was increased, with a linear correlation being observed between endogenous ATP concentrations and the rate of ADP translocation. The depressed ATP concentration in mitochondria from ethanol-fed rats suggests that the ATP synthetase complex is replenishing endogenous ATP at a slower rate. The lowered ATPase activity of the ATP synthetase observed in submitochondrial particles from ethanol-fed animals suggests a decrease in the function of the synthetase complex. A decrease in the rate of ATP synthesis in mitochondria from ethanol-fed rats is sufficient to explain the decreased ADP translocation and State-3 respiration.
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PMID:Control of adenine nucleotide metabolism in hepatic mitochondria from rats with ethanol-induced fatty liver. 709 25


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