Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P01275 (glucagon)
 26,492 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of insulin, glucagon, pyruvate, and lactate on the rate of sterol synthesis and 3-hydroxy-3-methylglutaryl (HMG)-CoA reductase activity were determined in hepatocytes obtained at different times of the day from rats maintained on a controlled lighting and feeding schedule. In hepatocytes from animals killed immediately before the start of the feeding period (D0 hepatocytes), the initially low activity of HMG-CoA reductase increased during incubation while that in hepatocytes prepared 6 h later (D6 hepatocytes) remained constantly high. The rates of sterol synthesis followed similar patterns of change. In both D0 and D6 cells, insulin stimulated HMG-CoA reductase but had little or no effect on the rates of sterol synthesis. In both types of cell preparation glucagon maximally suppressed HMG-CoA reductase activity at a concentration of 10(-7) M, but there was relatively little change in the rates of sterol synthesis. Both pyruvate and lactate mitigated the glucagon-mediated inhibition of HMG-CoA reductase. Each of these lipogenic precursors alone suppressed the rate of sterol synthesis in a dose-dependent manner. These changes were more apparent in the simultaneous presence of insulin and were greater in the D0 compared to the D6 hepatocytes. In the presence of lactate or pyruvate, the activity of HMG-CoA reductase was elevated, and the increase was greater when insulin was simultaneously present. In general, changes in the rate of fatty acid synthesis were positively correlated with changes in the activity of HMG-CoA reductase. These observations suggest that the latter changes are required to compensate for variations in the availability of simple precursors for sterol synthesis.
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PMID:Evidence that changes in hepatic 3-hydroxy-3-methylglutaryl coenzyme A reductase activity are required partly to maintain a constant rate of sterol synthesis. 638 48

Threonine dehydratase, threonine aldolase and threonine dehydrogenase activities were assayed in livers of rats that had been normally-fed, starved for 72 h, fed a high-protein diet or normally-fed and injected with glucagon or cortisone. A modified continuous spectrophotometric assay for threonine aldolase overcame interference resulting from threonine dehydratase activity and revealed that threonine aldolase activity was very low in rat liver, irrespective of the metabolic state of the animal. The concentration of free threonine was determined in livers of animals subjected to the same treatments as described above. Using Michaelis-Menten kinetics to estimate enzyme activities in vivo at intracellular threonine concentrations it was calculated that in the normally-fed state, 87% of the threonine degraded was catabolized by threonine dehydrogenase. In other metabolic states (except in glucagon-treated animals) threonine dehydratase was the major enzyme catalysing threonine catabolism. It was concluded that threonine dehydrogenase activity plays a hitherto unrecognized role in the metabolic homoeostasis of threonine in the normally-fed rat and that this enzyme activity, in association with 2-amino-3-oxobutyrate CoA-ligase, accounts for the known rate of glycine formation from threonine in the rat.
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PMID:Metabolic homoeostasis of L-threonine in the normally-fed rat. Importance of liver threonine dehydrogenase activity. 641 60

Streptozotocin-induced diabetes produced a significant rise in rat serum and liver triacylglycerol content and hepatic triacylglycerol biosynthesis measured in vivo. Microsomes, isolated from the livers of streptozotocin-exposed animals (2-72h), exhibited an increased capacity to incorporate sn-[1,3-(14)C]glycerol 3-phosphate into neutral lipid (diacylglycerol and triacylglycerol) in the presence of ATP, CoA and palmitate. The streptozotocin-induced elevation of microsomal neutral lipid production was accompanied by a corresponding rise in the activity of microsomal phosphatidate phosphohydrolase (4-fold after 72 h of streptozotocin exposure). Diabetic-dependent increases in acylglycerol formation, phosphatidate phosphohydrolase activity and serum triacylglycerol and fatty acid levels were reversed by administering insulin (10 units protamine zinc/kg) at 16-h intervals (three separate doses( beginning 24 h after streptozotocin exposure. However, the diabetic-related rise in hepatic triacylglycerol content was only partially corrected by insulin administration. Streptozotocin-relate increases in liver triacylglycerol biosynthesis and phosphatidate phosphohydrolase activity we associated with alterations in plasma factors, since homogenates of hepatocyte monolayers exposed (18h) to plasma isolated from diabetic (72 h exposure to streptozotocin) animals exhibit an increased capacity to incorporate sn-[1,3-(14)C]glycerol 3-phosphate into triacylglycerol compared to homogenates of cells exposed to plasma from control (non-fasted) animals. The importance of these plasma factors in altering hepatic acylglycerol formation was also supported by the observation that hepatocyte monolayers exposed to a mixture of plasma isolated from normal (non-fasted) animals and plasma components elevated in diabetes (glucagon, glucose, oleate and ketones) showed increases in triacylglycerol formation which were similar to those produced by exposure to diabetic plasma. Additional studies demonstrated that fatty acids (oleate) appeared to be the agent primarily responsible for the diabetic plasma-induced rise in monolayer triacylglycerol biosynthesis and phosphatidate phosphohydrolase activity.
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PMID:The acute effects of streptozotocin-induced diabetes on rat liver glycerolipid biosynthesis. 645

Small amounts of glycerol (0.25 mM) simultaneously decrease oxidation and increase esterification of fatty acids in isolated rat hepatocytes, mainly by raising the intracellular concentration of alpha-glycerophosphate. These effects were obtained in all thyroid states as well as in the fed and fasted states. In normal hepatocytes, the rate of oxidation showed a poor correlation with the content of malonyl-CoA. The effects of glycerol on fatty acid metabolism were most pronounced in hepatocytes with a high capacity for esterification and a previous low concentration of alpha-glycerophosphate (glucagon-treated hepatocytes from euthyroid fed rats). Esterification capacity was influenced by the nutritional and thyroid state (decreased in fasting and in hyperthyroidism). It was not influenced by glucagon in short-term experiments. alpha-Glycerophosphate may not regulate fatty acid metabolism in vivo, but a high esterification capacity probably traps acyl-CoA for esterification, thus preventing fatty acids from being oxidized. The metabolism of alpha-glycerophosphate seems to be accelerated by hyperthyroidism and slowed down by fasting. The effect of fasting seems not to depend on thyroid hormones for its effects on fatty acid metabolism in the liver.
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PMID:The effect of nutritional and thyroid state on the distribution of fatty acids between oxidation and esterification in isolated rat hepatocytes. 670 6

Hydroxymethylglutaryl CoA reductase catalyzes the limiting step in cholesterol synthesis in liver and other tissues. Beginning in 1973 studies with subcellular systems established that microsomal reductase is inactivated with ATP(Mg) and reductase kinase, and restored to full activity with phospho-protein phosphatase. By contrast reductase kinase is inactivated with phosphatase and reactivated with a second protein kinase (reductase kinase kinase). This bicyclic system has now been confirmed in terms of homogeneous enzyme components and by direct reversible phosphorylation with [gamma 32P]ATP in several laboratories. Short-term endocrine control of reductase and reductase kinase has been demonstrated in intact rat hepatocytes. Preincubation of cells with glucagon brought about a fall in the expressed activity of reductase and a rise in reductase kinase consistent with net phosphorylation of both enzymes. Total reductase levels were also severely depressed after glucagon. Addition of insulin to suspensions of hepatocytes had the reverse effect on expressed activity of reductase (elevated) and reductase kinase (depressed). Insulin also prevented the decay in total reductase activity. Since both protein kinases identified in this system are cAMP-insensitive, it was possible that hormonal signaling is mediated through the protein phosphatase that acts on both reductase kinase and reductase. In recent studies we have shown that the rate of activation of endogenous reductase in hepatocyte extracts (microsomes plus cytosol) is responsive to hormonal modulation. Pretreatment of hepatocytes with insulin increases apparent reductase phosphatase activity in extracts while glucagon diminishes the rate of reductase activation. HMG CoA is converted to mevalonate by the reductase enzyme. In hepatocytes mevalonate is rapidly converted to cholesterol and to a variety of isoprene derivatives. Expressed reductase activity falls precipitously when hepatocytes are incubated with mevalonate (added in the form of mevalono-lactone). As in the case with glucagon pretreatment reductase phosphatase is rapidly diminished. (Mevalonate itself is not inhibitory to reductase or reductase phosphatase activity in subcellular systems.) It is probable that a product of mevalonate metabolism generated in intact cells may act as a reductase phosphatase inhibitor. Among these added inorganic pyrophosphate inhibited reductase phosphatase at low concentrations.
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PMID:Short-term regulation of hydroxymethylglutaryl coenzyme A reductase by reversible phosphorylation: modulation of reductase phosphatase in rat hepatocytes. 705 70

1. The effect of triiodothyronine on the metabolism of palmitate, oleate and erucate in isolated rat hepatocytes was studied. 2. In triiodothyronine-treated rats increased oxidation and decreased triacylglycerol formation from palmitate and oleate was observed. For erucate triiodothyronine caused increased oxidation, but had no significant effect on esterification. 3. Glucagon had no effect on the fatty acid metabolism in hepatocytes from triiodothyronine-treated rats, whereas it stimulated the oxidation in hepatocytes from normal rats. Still, after treatment with triiodothyronine, the oxidation of fatty acids was significantly higher than in glucagon-stimulated normal hepatocytes. 4. In isolated rat liver mitochondria triiodothyronine raised the activity of the outer carnitine palmitoyltransferase (EC 2.3.1.21). The activity of the total carnitine palmitoyltransferase was elevated only slightly in isolated mitochondria from triiodothyronine-treated rats. These effects were similar to those seen in fasted rats. 5. Triiodothyronine had no significant influence on the concentration of long-chain acyl-CoA or alpha-glycerophosphate in isolated rat hepatocytes.
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PMID:The metabolism of fatty acids in hepatocytes isolated from triiodothyronine-treated rats. 706 76

To study the binding to mitochondria and the phosphorylation of ATP-citrate lyase (EC 4.1.3.8), isolated rat hepatocytes were fractionated by exposure to digitonin. After incubation of hepatocytes with the hypolipidemic agent 5-(tetradecyloxy)-2-furoic acid, which decreases the cellular CoA, the amount of bound ATP-citrate lyase was increased, but the content of acid-stable phosphate in the enzyme was diminished. Glucagon, in contrast, decreased the amount of bound enzyme but increased phosphorylation. This inverse relationship might indicate either that the bound ATP-citrate lyase is less readily phosphorylated or that the phosphorylated enzyme binds less readily to mitochondria.
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PMID:Influence of glucagon or 5-(tetradecyloxy)-2-furoic acid on binding to mitochondria and phosphorylation of ATP-citrate lyase. 706 84

Immunotitrations of rat liver hydroxymethylglutaryl-CoA (HOMeGlt-CoA) reductase activity were performed before and after short-term changes in the nutritional or hormonal state of the animals. Changes in enzyme activity (increase or decrease) within 1 h following cholesterol feeding or glucagon or mevalonolactone administration to normal rats, or insulin administration to diabetic rats were accompanied by no change in the specific activity of the enzyme, as determined from the quantity of enzyme activity inactivated by a fixed quantity of antibody. These results support the conclusion that the loss in enzyme activity was due to conversion of the enzyme to immuno-unreactive products. In agreement with this conclusion the enzyme activity lost after these short-term physiological changes was not restorable by phosphoprotein phosphatase action. On the other hand, incubation of rat liver microsomes with ATP and Mg2+ decreased the specific activity of HOMeGlt-CoA reductase about tenfold, as determined by immunotitration. The low specific activity produced under these conditions was increased by phosphatase action to nearly the original level. The above evidence suggests that the changes in HOMeGlt-CoA reductase activity that resulted from short-term physiological changes in hormonal or nutritional states of an animal were brought about by a change in the quantity of enzyme, and not by reversible phosphorylation of pre-existing enzyme.
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PMID:Regulation of short-term changes in hepatic beta-hydroxy-beta-methylglutaryl-CoA reductase activity. 711 48

Lipolysis was measured as the disappearance of [3H]glycerol previously incorporated into triacylglycerol, diacylglycerol and phosphatidic acid. There was no effect of glucagon on the lipolysis of any of these lipids. A transient increase in cellular alpha-glycerophosphate was induced by addition of glycerol during incubation. This resulted in an immediate and temporary decrease in oxidation and increase in esterification of palmitate while the uptake of palmitate from the incubation medium was unchanged. The change in alpha-glycerophosphate was also correlated with a transient drop in acyl-CoA and acylcarnitine. The lactate/pyruvate ratio was increased by the glycerol addition, but was still elevated for some while after the transient change in alpha-glycerophosphate. Similar effects were obtained by addition of dihydroxyacetone instead of glycerol. It is concluded that fatty acid esterification/oxidation can be changed by variations in the concentration of alpha-glycerophosphate, and that glucagon acts on lipid metabolism by decreasing the level of this metabolite.
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PMID:Regulation of palmitate esterification/oxidation by glucagon in isolated hepatocytes: the role of alpha-glycerophosphate concentration. 723 48

Direct immunotitrations of rat liver fatty acid synthetase in crude tissue homogenates with monospecific rabbit anti-rat liver fatty acid synthetase antibody enabled us to make a comparison of fatty acid synthetase protein and activity (percentage of maximal activity) as a function of the nutritional state in normal, diabetic, and insulin- and glucagon-insulin treated animals. Previous results, in which large changes in fatty acid synthetase activity were related to protein synthesis and degradation rather than to enzyme activation, were confirmed. It was also shown that fatty acid synthetase activation does not occur immediately on synthesis but follows the synthesis of fatty acid synthetase protein. In order to characterize the enzymatically inactive protein found on immunotitration and to develop an in vitro system for fatty acid synthetase activation, conditions were sought to obtain large amounts of fatty acid synthetase protein free from, or low in, activity. It was found that treatment of hypophysectomized rats with triiodothyronine meets these requirements, yielding milligram quantities of inactive fatty acid synthetase protein with less than 2% of maximal activity. A part of the inactive fatty acid synthetase was found to be the apoenzyme as indicated by beta-ketoreductase and thioesterase activities, by its ability to incorporate label from [G3H]CoA, and by its partial in vitro activation, which led to an increase in overall synthetase activity in crude and partially purified cell-free systems. The components required for activation include magnesium ion and a transferase fraction prepared from livers of 48-h fasted, 12-h refed rats.
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PMID:Demonstration of the occurrence of inactive fatty acid synthetase in rat liver by immunotitration and its in vitro partial activation. 726 65


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