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

Ethanol and other alcohols stimulate adenylate cyclase activity in various tissues and potentiate its stimulation by some hormones. This effect, however, usually requires a high alcohol concentration. In some cases, an unknown substance, different from cyclic AMP, was formed from ATP in the presence of an alcohol and mimicked stimulation of adenylate cyclase. Ethanol inhibits phosphodiesterase activity in some tissues. In the brain, only the low affinity enzyme of pons-medulla region is inhibited. ATP levels and ATPase activities are affected by ethanol treatment and this can lead to secondary changes of the cyclic AMP levels. Cyclic AMP levels in the brain and liver are decreased by acute ethanol administration while levels in other organs are unchanged. High doses of ethanol inhibit the postdecapitation-induced rise of cyclic AMP level in the brain while low ethanol doses potentiate the postdecapitation rise of cyclic AMP in the lower brain stem. Chronic ethanol administration increases basal adenylate cyclase activity and cyclic AMP levels, and decreases stimulation of adenylate cyclase by norepinephrine in the brain. In contrast, the stimulation of cyclic AMP formation by norepinephrine and other biogenic amines is increased in the brain of ethanol-withdrawn animals. Chronic administration of ethanol affects also cyclic AMP levels and cyclic AMP formation in some peripheral organs. Cyclic AMP might be involved in ethanol-induced fatty liver, since it activates hepatic lipase and might also participate in the fatty acid oxidation.
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PMID:Interactions of ethanol with cyclic AMP. 16 56

The effect of carbon-tetrachloride poisoning and the protection caused by AMP were studied. A single dose of CCl4 has resulted in a rapid development of a fatty liver, a considerable increase in serum enzymes, glutamic oxalacetic and pyruvic transaminases as well as serum-alkaline phosphatase. Total serum protein showed a tendency to decrease accompanied by a decrease in A/G ratio. Administration of adenosine-5-monophosphate prevented the increase in serum-alkaline phosphatase and increased the A/G ratio. There was, however, a slight but significant decrease in serum GOT and GPT within the 24-hrs. period of study, but it remained still higher than that of the control. AMP lowered liver fat without complete protection against the development of fatty liver.
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PMID:Effect of AMP on acute carbon-tetrachloride hepatotoxicity. 20 15

Recently numerous reports show deleterious effects of alcohol abuse on pregnant women giving their children a high risk of stillbirth and/or several developmental abnormalities and mental retardation, i.e. the Fetal alcohol syndrome (FAS). In the present study, the effects of maternal alcohol consumption on lipid metabolism in the litter liver were investigated in rats. These rats showed not only quite less lipid deposition in spite of large amount of alcohol consumption up to adulthood, but also showed increased FFA oxidation in the livers. In addition, increased level of very low density lipoprotein and hypoglucagonemia were found. 40 micrograms/kg of glucagon which is known as an inhibitory factor of apoprotein production in the liver, was injected for 2 weeks into the rat tail vein and resulted in apparent fatty liver and hypolipoproteinemia. Norepinephrine injection (1 mg/kg) caused plasma glucagon to be depressed in the rat as compared with adult alcohol rats. Plasma cyclic AMP response to glucagon was also depressed in these rats. From these results, it is suggested that the deranged glucagon secretion from the pancreas and lowered glucagon-induced cyclic AMP response would relate to the abnormal lipoprotein metabolism in the rat.
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PMID:[Experimental studies on lipoprotein metabolism in rats reared with liquid alcohol diet from the fetal life]. 298 81

The content of hepatic cyclic AMP was increased soon after intoxication by white phosphorus. Its level reached a maximum 4 h after poisoning, but in subsequent phases tended to return to normal. In contrast, the cyclic GMP concentration was altered only 24 and 36 h after treatment with the same hepatotoxin. Similar modifications of cAMP and cGMP content were also detected after poisoning by trichlorobromomethane (CBrCl3). As a consequence, an altered cGMP/cAMP ratio was found in both experimental conditions. Further, the modification of cAMP content after white phosphorus was detected prior to liver damage (steatosis and necrosis), while the highest concentration of the cyclic nucleotide in CBrCl3-poisoned rats was found when fatty liver was already evident. In addition, in phosphorus-poisoned rats, the hepatic content of Ca2+ was found to be unmodified during all phases of the intoxication, while after CBrCl3 a phasic increase of the Ca2+ level was observed at 4, 24 and 36 h.
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PMID:Behaviour of cyclic nucleotides and Ca2+ levels in liver tissue of rats poisoned by white phosphorus and trichlorobromomethane. 608 12

Dietary digestible carbohydrates are able to modulate lipogenesis, by modifying the expression of genes coding for key lipogenic enzymes, like fatty acid synthase. The overall objective of the Nutrigene project (FAIR-CT97-3011) was to study the efficiency of various carbohydrates to modulate the lipogenic capacity and relevant gene expression in rat and human species (control and obese subjects) and to understand the underlying molecular mechanisms involved in the regulation of lipogenic genes by carbohydrates. Key cellular mediators (namely SREBP-1c and 2, AMP activated protein kinase, cholesterol content) of the regulation of lipogenic gene expression by glucose and/or insulin were identified and constitute new putative targets in the development of plurimetabolic syndrome associated with obesity. In humans, hepatic lipogenesis and triglyceride synthesis, assessed in vivo by the use of stable isotopes, was promoted by a high-carbohydrate diet in non obese subjects, and in non alcoholic steatotic patients, but was not modified in the adipose tissue of obese subjects. Non digestible/fermentable carbohydrates, such as fructans, were shown to decrease hepatic lipogenesis in non obese rats, and to lessen hepatic steatosis and body weight in obese Zucker rats. If confirmed in obese humans, this would allow the development of functional food able to counteract the metabolic disturbances linked to obesity.
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PMID:Study of the regulation by nutrients of the expression of genes involved in lipogenesis and obesity in humans and animals. 1189 44

Neonatal hepatic steatosis (OMIM 228100) is a fatal condition of unknown etiology characterized by a pale and yellow liver and early postnatal mortality. In the present study, a deficit in adenosine-dependent metabolism is proposed as a causative factor. Physiologically, adenosine is efficiently metabolized to AMP by adenosine kinase (ADK), an enzyme highly expressed in liver. ADK not only ensures normal adenine nucleotide levels but also is essential for maintaining S-adenosylmethionine-dependent transmethylation processes, where adenosine, an obligatory product, has to be constantly removed. Homozygous Adk(-/-) mutants developed normally during embryogenesis. However, within 4 days after birth they displayed microvesicular hepatic steatosis and died within 14 days with fatty liver. Adenine nucleotides were decreased and S-adenosylhomocysteine, a potent inhibitor of transmethylation reactions, was increased in the mutant liver. Thus, a deficiency in adenosine metabolism is identified as a powerful contributor to the development of neonatal hepatic steatosis, providing a model for the rapid development of postnatally lethal fatty liver.
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PMID:Neonatal hepatic steatosis by disruption of the adenosine kinase gene. 1199 62

Alcohol has long been thought to cause fatty liver by way of altered NADH/NAD(+) redox potential in the liver, which, in turn, inhibits fatty acid oxidation and the activity of tricarboxylic acid cycle reactions. More recent studies indicate that additional effects of ethanol both impair fat oxidation and stimulate lipogenesis. Ethanol interferes with DNA binding and transcription-activating properties of peroxisome proliferator-activated receptor-alpha (PPARalpha), as demonstrated with cultured cells and in ethanol-fed mice. Treatment of ethanol-fed mice with a PPARalpha agonist can reverse fatty liver even in the face of continued ethanol consumption. Ethanol also activated sterol regulatory element binding protein 1, inducing a battery of lipogenic enzymes. These effects may be due in part to inhibition of AMP-dependent protein kinase, reduction in plasma adiponectin, or increased levels of TNF-alpha in the liver. The understanding of these ethanol effects provides new therapeutic targets to reverse alcoholic fatty liver.
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PMID:Recent advances in alcoholic liver disease II. Minireview: molecular mechanisms of alcoholic fatty liver. 1519 57

Metabolic syndrome is a pathophysiological state in which risks for atherosclerosis are clustered. Etiology of metabolic syndrome is multi-factorial. Excess energy intake causes imbalance of energy transcription factors such as PPARs and SREBP-1c, which are deeply involved in lipid and carbohydrate metabolism, leading to insulin resistance and dyslipidemia. Especially hepatic SREBP-1c could be involved in production of remnant lipoproteins, fatty liver, and hepatic insulin resistance. Meanwhile, currently, therapeutic trend is activation of energy expenditure, in which PPAR alpha, delta, and AMP kinase are current targets of treatment. Proinflammatory agents should also be involved and adipocytokines could play an important role in peripheral insulin resistance.
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PMID:[Pathophysiology of metabolic syndrome]. 1520 38

Although CCAAT/enhancer-binding protein alpha (C/EBPalpha) is essential for initiating or sustaining several metabolic processes during the perinatal period, the consequences of total ablation of C/EBPalpha during postnatal development have not been investigated. We have created a conditional knock-out model in which the administration of poly(I:C) caused a virtually total deletion of c/ebpalpha (C/EBPalpha(Delta/-) mice) in the liver, spleen, white and brown adipose tissues, pancreas, lung, and kidney of the mice. C/EBPalpha itself was completely ablated in the liver by day 4 after the injection of poly(I:C). There was no noticeable change in phenotype during the first 15 days after the injection. The mice maintained a normal level of fasting blood glucose and responded to the diabetogenic action of streptozotocin. From day 16 onward, the mice developed hypophagia, exhibited severe weight loss, lost triglyceride in white but not brown adipose tissue, became hypoglycemic and hypoinsulinemic, depleted their hepatic glycogen, and developed fatty liver. They also exhibited lowered plasma levels of free fatty acid, triglyceride, and cholesterol, as well as marked changes in hepatic mRNA for C/EBPdelta, peroxisome proliferator-activated receptor alpha, sterol regulatory element-binding protein 1, hydroxymethylglutaryl-coenzyme A reductase, and apolipoproteins. Although basal levels of hepatic mRNA for the cytosolic isoform of phosphoenolpyruvate carboxykinase and glucose-6-phosphatase were reduced, transcription of the genes for these enzymes was inducible by dibutyryl cyclic AMP in C/EBPalpha(Delta/-) mice. The animals died about 1 month after the injection of poly(I:C). These findings demonstrate that C/EBPalpha is essential for the survival of animals during postnatal life and that its ablation leads to distinct biphasic change in metabolic processes.
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PMID:Metabolic response of mice to a postnatal ablation of CCAAT/enhancer-binding protein alpha. 1616 91

Alcohol has classically been thought to cause fatty liver by way of altered redox potential in the liver, which inhibits fatty acid oxidation. Additional effects appear to play a role both in impairing fat oxidation and stimulating lipogenesis. Alcohol reduces the DNA binding and transcription-activating properties of peroxisome proliferator-activated receptor alpha (PPARalpha), both in cultured cells and in mice fed alcohol. Treatment of alcohol-fed mice with a PPARalpha agonist reverses fatty liver despite continued alcohol consumption. Alcohol also activates sterol response element- binding protein 1 (SREBP-1), inducing a battery of lipogenic enzymes. This effect may be due in part to inhibition of AMP-dependent protein kinase. This understanding of alcohol effects provides new therapeutic targets to reverse alcoholic fatty liver.
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PMID:Alcohol deranges hepatic lipid metabolism via altered transcriptional regulation. 1706 Sep 73


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