UMLS:C0015695 - FACTA Search

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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stimulation of cyclic AMP formation by norepinephrine and other biogenic amines is increased in the brain of ethanol-withdrawn animals.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

In a previous report (Langner, C. A., Birkenmeier, E. H., Ben-Zeev, O., Schotz, M. C., Sweet, H. O., Davisson, M. T., and Gordon, J. I. (1989) J. Biol. Chem. 264, 7994-8003), we characterized the early developmental phenotype of mice that were homozygous for the autosomal recessive fatty liver dystrophy (fld) mutation. Shortly after birth, these mice can be distinguished from their +/? littermates by large pale livers, hypertriglyceridemia, elevations in hepatic apolipoprotein A-IV and apoC-II mRNA levels, and tissue-specific decreases in lipoprotein lipase and hepatic lipase activities. These traits resolve by the early weaning period. We have now characterized a second feature of this mutation: a peripheral neuropathy that becomes manifest by an abnormal gait at the end of the second postnatal week and persists through adulthood. Electron microscopic studies of sciatic nerves from 4-day-to 1-year-old fld/fld mice demonstrated a variety of abnormalities including thin, poorly compacted myelin sheaths, active myelin breakdown, and enlarged Schwann cell mitochondria and nuclei. Western blot analysis of sciatic nerve homogenates prepared from 1 to 3-month-old fld/fld mice and their +/? littermates indicated that homozygous animals have striking reductions in two peripheral nerve myelin-associated proteins, P0 and P2. The steady-state level of apoE, a protein induced during nerve regeneration, is markedly elevated. Furthermore, two axon-specific proteins, neurofilament 68K and growth-associated 43 protein, display altered expression in adult fld/fld sciatic nerves. High performance thin-layer chromatography revealed deficiencies in phospholipids, glycosphingolipids, and some neutral lipids in fld/fld sciatic nerves harvested during the first several months of life (compared to their +/? littermates). Cholesterol esters were elevated in homozygotes. By contrast, no differences in brain lipids were noted between fld/fld animals and their +/? littermates. These data suggest that the fld mutation is associated with an abnormality of myelin formation (dysmyelination) as well as demyelination and axonal degeneration that persists despite apparent resolution of the neonatal hypertriglyceridemia and associated lipase abnormalities. These findings establish the fld/fld mouse as an excellent model system for analyzing homeostatic mechanisms that modulate lipid metabolism in newborn mice and for examining the pathogenesis of peripheral neuropathies associated with dyslipidemias.
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PMID:Characterization of the peripheral neuropathy in neonatal and adult mice that are homozygous for the fatty liver dystrophy (fld) mutation. 205 Jun 89

An autosomal recessive mutation, termed fatty liver dystrophy (fld), can be identified in neonatal mice by their enlarged and fatty liver (Sweet, H. O., Birkenmeier, E. H., and Davisson, M. T. (1988) Mouse News Letter 81, 69). We have examined the underlying metabolic abnormalities in fld/fld mice from postnatal days 3-40. Serum and hepatic triglyceride levels were elevated 5-fold in suckling fld/fld mice compared to their +/? littermates but abruptly resolved at the suckling/weaning transition. Blot hybridization analysis of liver and intestinal RNAs revealed a liver-specific increase in apolipoprotein (apo) A-IV and C-II mRNA concentrations (100- and 6-fold, respectively) that was limited to the suckling and early weaning stages in fld/fld mice. Resolution of these differences during the weaning period could not be delayed by prolonging suckling to the 20th postnatal day nor could the mutant phenotype be elicited in young adult animals with a high fat diet. Lipoprotein lipase (LPL) activity was reduced 16-fold in the white adipose tissue of fld/fld mice until the onset of weaning. Heart activity was decreased less than 2-fold, but there were no deficits in brown adipose tissue or liver. Hepatic lipase (HL) mRNA levels and activity were significantly reduced in fld/fld livers and sera, respectively, during the suckling period. Mapping studies show the fld locus to be distinct from loci encoding LPL, HL, and apoA-IV, and those responsible for the combined lipase deficiencies in cld/cld and W/Wv mice. These data suggest that the fld mutation is associated with developmentally programmed tissue-specific defects in the neonatal expression of LPL and HL activities and provide evidence for a new regulatory locus which affects these lipase activities. This mutation could serve as a useful model for (i) analyzing the homeostatic mechanisms controlling lipid metabolism in newborn mice and (ii) understanding and treating certain inborn errors in human triglyceride metabolism.
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PMID:The fatty liver dystrophy (fld) mutation. A new mutant mouse with a developmental abnormality in triglyceride metabolism and associated tissue-specific defects in lipoprotein lipase and hepatic lipase activities. 272 72

A 36-year-old woman was treated with tamoxifen for lung metastasis of breast cancer and had marked hyperlipoproteinemia with giant fatty liver, high plasma triglyceride levels (3673 mg/dl), and increased levels of very low density lipoprotein (VLDL) and intermediate density lipoprotein (UDL). A low level of activity of both plasma lipoprotein lipase (LPL) and hepatic triglyceride lipase (HTGL) was also noted. Our observations support the concept that, in some patients, the weak estrogen-like activity of tamoxifen is amplified and, in severe lipemia, reduction of the activities of LPL and HTGL might impede the conversion of VLDL to LDL, thus causing the amplification of the effect.
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PMID:[A case report of hyperlipemia with giant fatty liver during adjuvant endocrine therapy by tamoxifen]. 310 57

Hepatic steatosis frequently complicates total parenteral nutrition (TPN). Some of the mechanisms responsible were examined in rats receiving calories as dextrose (CHO-TPN) or dextrose plus lipid emulsion (Lipid-TPN). Hepatic triglyceride content increased approximately threefold after CHO-TPN and twofold after Lipid-TPN (P less than 0.02). Hepatic triglyceride fatty acid composition reflected endogenous synthesis. Hepatic acetyl-Coenzyme A carboxylase specific activity increased fourfold after CHO-TPN and twofold after Lipid-TPN, and it correlated positively with hepatic lipid content (r = 0.82). The activities of the microsomal enzymes of complex lipid synthesis were unchanged in the TPN groups. Both TPN regimens suppressed hepatic triglyceride secretion, measured by the rise in plasma triglyceride and the incorporation of [14C]palmitic acid into plasma triglyceride after intravenous Triton. Hepatic triglyceride secretion correlated negatively with total hepatic lipid content (r = -0.89). CHO-TPN increased the uptake of a radiolabeled triglyceride emulsion and increased hepatic lipase activity, whereas Lipid-TPN decreased both. Both adipose and cardiac lipase were higher for Lipid-TPN animals than for CHO-TPN or control animals. Hepatic 14C-triglyceride content was increased in both TPN groups as compared with controls after the injection of 1-[14C]-palmitic acid. This increment was proportional to the decreased hepatic secretion. Triglyceride fatty acid oxidation was significantly suppressed by CHO-TPN, less so by Lipid-TPN. Free fatty acid oxidation was suppressed only by CHO-TPN. The results suggest that the steatosis induced by TPN in rats was due to enhanced hepatic synthesis of fatty acid and reduced triglyceride secretion. Reduced hepatic triglyceride uptake, enhanced fatty acid oxidation, and enhanced peripheral tissue plasma triglyceride lipolysis when CHO-TPN is supplemented with lipid may modulate the accumulation of hepatic triglyceride and, along with reduced synthesis of fatty acid, lead to a lower hepatic triglyceride content.
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PMID:Pathogenesis of hepatic steatosis in the parenterally fed rat. 643 55

The effects of amino acid-fortified low casein and fish oil (FO) diets on hyperlipidemia and proteinuria were studied in rats with nephrotoxic serum nephritis. After an antiserum injection, rats were maintained for 14 d on four different experimental diets: a 20% casein diet containing corn oil (CO) or FO, or an 8% casein diet supplemented with cystine plus threonine containing CO or FO. The 8% casein diets reduced urinary protein excretion in nephritic rats without inducing severe growth retardation or fatty liver compared with the basal 20% casein diets. Both the 8% casein diet and the FO diet decreased serum cholesterol, triglyceride and phospholipid levels in nephritic rats, and nonesterified fatty acid levels were decreased by FO feeding. In nephritic animals, hepatic cholesterol synthesis was decreased by the 8% casein diets compared with the 20% casein diets, and tended to be reduced by FO feeding between groups at the same casein levels. No effect of diet was observed on fatty acid synthesis among the nephritic rats. FO administration to the nephritic animals suppressed fecal steroid excretion. While lipoprotein lipase activity was unchanged among the nephritic rats, hepatic triglyceride lipase activity was reduced by either the 8% casein or FO diet. The results suggest that the hypolipidemic action of low casein diets may, at least in part, be due to reduced hepatic cholesterol synthesis and suppressed triglyceride secretion from the liver. They also suggest that the hypolipidemic action of FO may, at least in part, be due to reduced hepatic cholesterol synthesis and decreased fatty acid mobilization from peripheral adipose tissue.
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PMID:Effects of low casein and fish oil on hyperlipidemia and proteinuria in nephritic rats. 786 59

Naturally occurring mutations in the mouse provide a unique resource for identifying genes and characterizing proteins involved in lipid metabolism. Spontaneous mouse mutations have been described that affect various aspects of lipid metabolism, including cellular cholesterol homeostasis, fatty acid metabolism, serum lipoprotein levels, serum and tissue lipase activities, and lipid composition of tissues such as liver, nerve, kidney, and adrenal gland. Here we briefly describe the phenotypes and genetics of several mutants with blood and tissue lipid abnormalities, and then provide a more in-depth discussion of two mutations, fatty liver dystrophy (fld) and combined lipase deficiency (cld). Mice homozygous for the fld mutation exhibit fatty liver and hypertriglyceridemia during neonatal development, and a peripheral neuropathy that progresses throughout the lifetime of the animal. Combined lipase deficiency is characterized by a nearly complete absence of lipoprotein lipase and hepatic lipase activity resulting in neonatal lethality. Although the underlying genes for these two disorders have yet to be identified, candidates that have been implicated through the molecular and biochemical characterization of the mutants are discussed.
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PMID:Naturally occurring mutations in mice affecting lipid transport and metabolism. 882 13

Evidence has been provided that increased levels of non esterified fatty acids (NEFA) in the portal flow would produce insulin resistance and would also stimulate the hepatic protein synthesis, thereby explaining the increased plasma levels not only of apolipoprotein B, but also of other liver-derived enzymes and proteins occurring in overweight and hypertriglyceridemic patients. The high plasma concentration of triglyceride-rich lipoprotein would facilitate the transfer of cholesteryl esters from HDL and LDL to VLDL in exchange for triglycerides, a process mediated by liver-derived cholesteryl ester transfer protein (CETP). The triglyceride thereby acquired in HDL and LDL would then be hydrolyzed by hepatic lipase. The resulting association of increased triglycerides, low HDL cholesterol and small dense LDL is considered to be an atherogenic profile. The prothrombotic state, another feature of the metabolic syndrome, may also be explained by an enhanced hepatic synthesis of clotting factors and of the inhibitors of fibrinolysis. It was recently shown that adipocyte synthesized adiponectin reduces the release of fatty acids from the adipose tissue and would also enhance their uptake and oxidation in the muscle, thereby limiting their uptake in the liver. Decreased adiponectin production in obesity would therefore promote the development of insulin resistance, of atherogenic dyslipidemia and of the prothrombotic state. Because adiponectin also exerts an antiinflammatory activity by antagonizing TNFalpha, hypoadiponectinemia may be involved in atherogenesis and in the progression of hepatic steatosis to steatohepatitis.
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PMID:Pathogenic role of abnormal fatty acids and adipokines in the portal flow. Relevance for metabolic syndrome, hepatic steatosis and steatohepatitis. 1833 68

To investigate the potential for pregnane X receptor (PXR) ligands as antiatherosclerotic drugs, we have determined the effect of PXR activation on lipid metabolism in an established atherosclerotic mouse model. LDL receptor knockout mice were treated with the PXR agonist PCN. PCN induced a striking 66% decrease in plasma LDL-cholesterol levels. PCN did not affect the cholesterol levels of high-density lipoprotein (HDL) or very-low-density lipoprotein (VLDL). VLDL-triglyceride levels were 2.2-fold increased by PCN, resulting in the presence of triglyceride-rich VLDL particles. This coincided with a 60% decreased hepatic lipase (HL)-mediated plasma lipolysis rate, which could be attributed to a decrease in the hepatic mRNA expression level of both HL (-31%) and its cofactor apolipoprotein A4 (-62%). In the liver, PCN induced a significant increase in the level of triglycerides (+65%) and phospholipids (+72%), a hallmark of hepatic steatosis, leading to a marked increase in Oil red O neutral lipid staining. A similar effect was noticed in ApoE knockout mice. Our studies show that activation of the nuclear receptor PXR by PCN leads to an inhibition of the plasma HL-mediated lipolysis rate, which is associated with a decrease in plasma LDL-cholesterol levels and induction of hepatic steatosis in LDL receptor knockout mice.
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PMID:Activation of the nuclear receptor PXR decreases plasma LDL-cholesterol levels and induces hepatic steatosis in LDL receptor knockout mice. 1918 6

Hepatic lipase (HL)-mediated lipoprotein hydrolysis provides free fatty acids for energy, storage, and nutrient signaling and may play a role in energy homeostasis. Because HL-activity increases with increased visceral fat, we hypothesized that increased HL-activity favors weight gain and obesity and consequently, that HL deficiency would reduce body fat stores and protect against diet-induced obesity. To test this hypothesis, we compared wild-type mice (with endogenous HL) and mice genetically deficient in HL with respect to daily body weight and food intake, body composition, and adipocyte size on both chow and high-fat (HF) diets. Key determinants of energy expenditure, including rate of oxygen consumption, heat production, and locomotor activity, were measured by indirect calorimetry. HL-deficient mice exhibited reduced weight gain on both diets (by 32%, chow; by 50%, HF; both P < 0.0001, n = 6-7 per genotype), effects that were associated with reduced average daily food intake (by 22-30% on both diets, P < 0.0001) and a modest increase in the rate of oxygen consumption (by 25%, P < 0.003) during the light cycle. Moreover, in mice fed the HF diet, HL deficiency reduced both body fat (by 30%, P < 0.0001) and adipocyte size (by 53%, P < 0.01) and fully prevented the development of hepatic steatosis. Also, HL deficiency reduced adipose tissue macrophage content, consistent with reduced inflammation and a lean phenotype. Our results demonstrate that in mice, HL deficiency protects against diet-induced obesity and its hepatic sequelae. Inhibition of HL-activity may therefore have value in the prevention and/or treatment of obesity.
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PMID:Mice lacking hepatic lipase are lean and protected against diet-induced obesity and hepatic steatosis. 2005 22

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