Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P17174 (aspartate aminotransferase)
 14,872 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effect of variable doses of ethanol on plasma lecithin: cholesterol acyltransferase (LCAT) activity was examined in male, atherosclerosis-susceptible squirrel monkeys over a 12-month period. Primates were divided into three groups: 1) Controls fed isocaloric liquid diet; 2) Low Ethanol monkeys given liquid diet with vodka substituted isocalorically for carbohydrate at 12% of calories; and 3) High Ethanol animals fed diet plus vodka at 24% of calories. There were no significant differences between the treatments in serum glutamate oxaloacetate transaminase (SGOT), a measure of liver function. However, plasma LCAT activity (% esterification/min) measured in vitro was significantly reduced in High Ethanol monkeys while cholesterol esterification was elevated in the Low Ethanol group and intermediate in Controls. Similarly, the in vivo appearance of radiolabeled cholesteryl ester in high density lipoproteins (HDL) following the intravenous injection of 3H mevalonolactone was highest in the Low Ethanol primates, intermediate in Controls and significantly lower in monkeys fed the high alcohol diet. In vitro measurement of LCAT enzyme efficiency was similar for the three groups while substrate efficiency was lower in the High Ethanol treatment. Although LCAT activator (apoprotein A-I) was not markedly altered by dietary ethanol and the concentration of LCAT substrates (HDL free cholesterol and phosphatidyl choline) was significantly elevated in the High Ethanol group, subtle modifications in substrate-product composition may account for the observed reduction in cholesterol esterification. These include potential substrate and/or product LCAT inhibition resulting from increased concentrations of plasma free cholesterol, HDL lysophosphatidyl choline, and higher HDL2/HDL3 subfraction ratios, as well as alterations in HDL phospholipid fatty acid profiles in the High Ethanol group. Results from this study provide the first evidence of an anomalous enhancement in LCAT activity in nonhuman primates fed ethanol at 12% of calories and a marked depression in cholesterol esterification at the 24% dose which may be due to substrate alterations and product inhibition prior to overt biochemical evidence of liver dysfunction.
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PMID:Effect of ethanol on lecithin:cholesterol acyltransferase (LCAT) activity. 399 6

Male squirrel monkeys fed ethanol at variable doses were used to assess whether alcohol enhances de novo synthesis of high density lipoprotein (HDL) cholesterol in vivo. Monkeys were divided into three groups: 1) Controls fed isocaloric liquid diet; 2) Low Ethanol monkeys fed liquid diet with vodka substituted isocalorically for carbohydrate at 12% of calories; and 3) High Ethanol animals fed diet plus vodka at 24% of calories. High Ethanol primates had significantly higher levels of HDL nonesterified cholesterol than Control and Low Ethanol animals while serum glutamate oxaloacetate transaminase was similar for the three treatments. There were no significant differences between the groups in HDL cholesteryl ester mass or specific activity following intravenous injection of labeled mevalonolactone. By contrast, High Ethanol monkeys had significantly greater HDL nonesterified cholesterol specific activity with approximately 60% of the radioactivity distributed in the HDL3 subfraction. This report provides the first experimental evidence that ethanol at 24% of calories induces elevations in HDL cholesterol in primates through enhanced de novo synthesis without adverse effects on liver function.
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PMID:Ethanol enhances de novo synthesis of high density lipoprotein cholesterol. 646 61

Ten years' experience of treatment with the 3-hydroxy-3-methylglutaryl coenzyme A reductase inhibitor simvastatin in 45 hypercholesterolemic high-risk patients is reported. All patients started with 20 mg simvastatin/day. The simvastatin dose was increased to 40 mg in 22 patients. Fourteen patients needed further addition of cholestyramine. Simvastatin reduced plasma cholesterol by 33% after 1 month and was further reduced after adjustment of the lipid-lowering treatment. The mean reduction in plasma cholesterol varied between 30% and 35% in 2 to 10 years. Low-density lipoprotein cholesterol demonstrated mean reductions of 34% to 42%. Mean plasma triglycerides were reduced by 26% after 1 month and by 1% to 19% the following years. High-density lipoprotein (HDL) cholesterol increased initially by 8% and remained elevated at 7% to 11% during the first 6 years, but then dropped slightly below baseline. HDL2 cholesterol increased by 9% to 25% the first 6 years and then decreased. HDL3 cholesterol showed a persistent elevation during simvastatin treatment. About half of the subjects had minor transient but clinical insignificant increases in creatine kinase. No cases of myopathy were seen. Mean serum aspartate aminotransferase and alanine aminotransferase increased significantly but within the normal ranges during the 10 years. The tolerability and compliance of simvastatin treatment was excellent as judged from patients' reports and from analyses of low-density lipoprotein cholesterol. This 10-year study demonstrates that simvastatin is an effective and safe drug with excellent tolerability with only few minor side effects, and causes a pronounced and persistent cholesterol-lowering effect during long-term treatment of hypercholesterolemic patients at risk.
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PMID:Efficacy and safety of simvastatin for high-risk hypercholesterolemia. 1019 May 17