EC:6.4.1.1 - FACTA Search

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Query: EC:6.4.1.1 (pyruvate carboxylase)
1,516 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ethacrynic acid stimulates in vitro concentration dependent renal gluconeogenesis from substrates which enter the gluconeogenic pathway at the level of the triosephosphates like glycerol or fructose or from substrates which have to pass the oxaloacetate shuttle like pyruvate or from intermediary products of fatty acid oxydation or citrate cycle. Our results suggest that a site of action of ethacrynic acid in this metabolic aspect is the enzyme system fructose diphosphatase/frutose-6-phosphate kinase and eventually additionally pyruvate carboxylase.
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PMID:Interaction of ethacrynic acid with control sites of renal glucose metabolism. 17 81

The gluconeogenic capacity of mammary tissue of lactating cow was investigated by incubating mammary tissue slices with alanine, glutamate, lactate, pyruvate, or glycerol in conjunction with acetate and glucose (10mM or 1 mM). In no case was any substrate incorporated into glucose per se. In lactose synthesis, glucose was the major source of carbon although glycerol also was incorporated into lactose. Alanine, glutamate, lactate, or pyruvate were not incorporated into lactose at optimum (10 mM) or suboptimum (1 mM) concentrations of glucose. Activity of glucose-6-phosphatase was negligible in mammary tissue, less than 1% of the activity in liver or kidney tissue from the same cows. Pyruvate carboxylase, phosphoenolpyruvate carboxykinase, and fructose-1,6-diphosphatase were in cow mammary tissue, but the activities were lower than in liver. Gluconeogenic substrates were not converted to glucose regardless of whether the incubation contained an optimum (10 mM) or a suboptimum (1 mM) glucose concentration. Consistent with the inability of cow mammary tissue to convert gluconeogenic metabolites to glucose is the virtual absence of glucose-6-phosphatase and the lack of excess gluconeogenic substrates available to the intact mammary gland of lactating cow.
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PMID:Cellular gluconeogenesis by lactating bovine mammary tissue. 17 3

1. Intact and pure parenchymal and non-parenchymal cells were isolated from rat liver. The specific activities of several mitochondrial enzymes were determined in both parenchymal and non-parenchymal cell homogenates to characterize the mitochondria in these liver cell types. 2. In general the activities of mitochondrial enzymes were lower in non-parenchymal liver cells than in parenchymal cells. The specific activity of pyruvate carboxylase in non-parenchymal cells expressed as the percentage of that in parenchymal cells was onlu 2% for glutamate dehydrogenase 4.3% and for cytochrome c oxidase 79.4%. Monoamine oxidase, as an exception, has an equal specific activity in both cell types. 3. The activity ratio of pyruvate carboxylase at 10 mM pyruvate over 0.1 mM pyruvate is 3.35 for parenchymal cells and 1.50 for non-parenchymal cells. This indicates that non-parenchymal liver cells only contain the high affinity form of pyruvate carboxylase in contrast to parenchymal cells. 4. The ratio of glycerol-3-phosphate cytochrome c reductase over succinate cytochrome c reductase activity differs from parenchymal (0.01) and non-parenchymal cells (0.10). This might indicate that the glycerol-3-phosphate shuttle, which is important for the transport of reduction equivalents for cytosol to mitochondria is relatively more active in non-parenchymal cells than in parenchymal cells. 5. The activity pattern of mitochondrial enzymes in parenchymal and non-parenchymal cell homogenates indicates that these cell types contain different types of mitochondria. The presence of these different cell types in liver will therefore contribute to the heterogeneity of isolated rat liver mitochondria in which the mitochondria from non-parenchymal cells might be considered as "non-gluconeogenic".
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PMID:Different types of mitochondria in parenchymal and non-parenchymal rat-liver cells. 19 9

The effects of progesterone on some of the hepatic enzymes associated with lipogenesis and gluconeogenesis in rats is presented. Progesterone was given, 1.25 mg, twice daily, for 14 days followed by 2.5 mg twice daily for 7 days. Animals were killed after 21 days of treatment. Enzymes studied included phosphofructokinase (PFK) malic enzyme (ME), glucose-6-phosphate dehydrogenase (G-6-PD), citrate cleavage enzyme (CCE), glycerol-3-phosphatee dehydrogenase (g-3-PD), fatty acid synthetase (FAS), pyruvate carboxylase (PC), phosphenolpyruvate carboxykinase (PEPCK), fructose-1,6-diphosphatase (FDPase), and lactate dehydrogenase (LDH). PFK, ME, G-6-PD, and CCE were elevated significantly after progesterone administration, while FAS and G-3-PD were unchanged. These changes may represent insulin effects. Progesterone treatment also results in increased PEPCK. This enzyme is associated with control of gluconeogenesis. PEPCK is considered to be a key rat-limiting enzyme in the "dicarboxylic acid shuttle." This finding may indicate an increased capability for glycogen formation.
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PMID:Effects of progesterone on some enzymes of fat and carbohydrate metabolism in rat liver. 19 50

1. Fatty livers and kidney syndrome (FLKS) was induced in young broiler chickens by giving them a diet composed principally of wheat and meat meal. 2. FLKS resulted in reduced growth and increased liver weight; fasting for 18 h increased mortality, liver lipid and the specific activity of hepatic ATP-citrate lyase compared with birds fed on a commercial diet. The specific activities of hepatic fructose-1,6-diphosphate-1-phosphohydrolase and pyruvate carboxylase were reduced in birds suffering from FLKS and fasted for 18 h. 3. Feeding of the FLKS-inducing diet supplemented with 150 g animal tallow/kg for 54 h considerably reduced mortality while restoring liver composition and enzyme activities towards those observed in birds fed a commercial diet. Investigations indicated that the glycerol component of the fat was not responsible for the observed responses. 4. The present results suggest that in FLKS insufficiencies of biotin are induced in specific enzyme systems, but the syndrome may be alleviated without the use of supplementary biotin. 5. The evidence indicates that, when stressed, birds affected by FLKS diet from the hypoglycaemia occurring as a result of a reduced capacity for gluconeogenesis.
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PMID:A biochemical explanation for the fatty liver and kidney syndrome of broilers: its alleviation by the short-term use of dietary fat. 20 Dec 68

Pyruvate carboxylase activities of erythrocytes and liver preparations and their in vitro stimulation by biotin were used for the determination of the biotin status of chicks. Reasonable stability of the enzyme in erythrocytes was achieved when storing the erythrocytes deep-frozen in a glycerol-containing medium. Results of the activation assays in erythrocytes and liver are compared with biotin levels in feed, plasma and liver. The pyruvate carboxylase activation assay appears to be a useful tool for assessing the biotin status of chicks.
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PMID:Pyruvate carboxylase activities in red blood cells and liver of chicks and their dependency on biotin status. First results with activation assays.. 55 86

Clofibrate was administered in the diet (0.3% w/w) for varying periods of time to normal rats. Rats were killed by decapitation and several biochemical measurements were made. Clofibrate lowered serum levels of cholesterol and triglyceride and produced a kidney hypertrophy; these effects were maximal after 3 days of feeding and persisted for 21 days. Serum clofibric acid levels were highest on the 3rd day and decreased to maintenance levels by the 7th day. Clofibrate markedly increased the activities of glucose 6-phosphatase, pyruvate carboxylase and phosphoenolpyruvate carboxykinase in kidney cortex and the synthesis of glucose from glutamate, lactate, pyruvate, glycerol and malate by kidney cortex slices. Clofibrate treatment did not affect blood pH or bicarbonate levels. It is concluded that clofibrate enhances renal gluconeogenesis in the rat and that the effect is not caused by altering acid-base balance.
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PMID:Renal gluconeogenesis in clofibrate-treated rats. 63 72

1. In isolated rat hepatocytes incubated with pyruvate, ketogenesis increased with increasing pyruvate concentrations and decreased under the influence of 1 mM-alpha-cyano-4-hydroxycinnamate, a known inhibitor of pyruvate transport. Ketogenesis from pyruvate was higher by 30% in hepatocytes prepared from starved than from fed rats. 2. With pyruvate as substrate, 2 mM-dichloroacetate had no effect on ketogenesis of starved-rat hepatocytes, but increased ketogenesis of fed-rat hepatocytes to the 'starved' value. Gluconeogenesis from pyruvate, lactate and alanine, but not from glycerol, was inhibited by dichloroacetate. Both increased ketogenesis and decreased gluconeogenesis may result from an inhibition of pyruvate carboxylase by dichloroacetate. 3. Mitochondria were rapidly isolated from incubated hepatocytes, and [3-hydroxybutyrate]/[3-oxobutyrate] ratios were measured in the mitochondrial pellet ('mitochondrial' ratios) and in whole-cell suspensions ('total' ratios). Increasing pyruvate concentrations increased mitochondrial and decreased total ratios. In the presence of pyruvate (2 to 10 mM), dichloroacetate decreased mitochondrial and increased total ratios.
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PMID:The effects of pyruvate concentration, dichloroacetate and alpha-cyano-4-hydroxycinnamate on gluconeogenesis, ketogenesis and [3-hydroxybutyrate]/[3-oxobutyrate] ratios in isolated rat hepatocytes. 65 77

1. Enzyme activities (units/g wet wt.) were determined in the caput and cauda epididymidis and in epididymal spermatozoa of the rat. 2. The activity of most enzymes in the cauda was between 50 and 100% of that in the caput, except that ATP citrate lyase was barely detectable in the cauda. 3. Spermatozoa, unlike epididymal tissue, contained sorbitol dehydrogenase but lacked ATP citrate lyase. NADP+-malate dehydrogenase, mitochondrial glycerol 3-phosphate dehydrogenase, succinate dehydrogenase, carnitine acetyltransferase and citrate synthase were 5 to 400 times as active in spermatozoa as in epididymal tissue. 4. 2-Oxoglutarate dehydrogenase was the least active member of the tricarboxylic acid cycle in all tissues and most closely matched the measured flux through the cycle. 5. The concentrations of hydroxyacyl-CoA dehydrogenase and carnitine palmitoyltransferase were equivalent to the more active enzymes of the tricarboxylic acid cycle, indicating the capacity for extensive lipid oxidation, and the presence of 3-hydroxybutyrate dehydrogenase suggests that these tissues can also oxidize ketone bodies. 6. Transfer of reducing equivalents from cytoplasm to mitochondrion is unlikely to occur by means of the glycerol phosphate cycle because mitochondrial glycerol 3-phosphate dehydrogenase is relatively inactive in epididymal tissue, whereas the cytoplasmic enzyme has little activity in spermatozoa, but transfer may be accomplished by the malate-aspartate shuttle. 7. Transfer of acetyl units from mitochondrion to cytoplasm could be effected by the pyruvate-malate cycle in the caput of androgen-maintained rats, but not in the other tissues because of the low activity of ATP citrate lyase. Acetyl unit transfer could take place via acetylcarnitine, mediated by carnitine acetyltransferase. 8. Castration resulted in a decrease in the concentration of nearly all enzymes, although subsequent administration of testosterone restored concentrations to values similar to those in animals maintained by endogenous androgen. The extent to which enzyme concentration was changed by an alteration in androgen status was highly variable, but was most marked in the case of pyruvate carboxylase.
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PMID:Activity and androgenic control of enzymes associated with the tricarboxylic acid cycle, lipid oxidation and mitochondrial shuttles in the epididymis and epididymal spermatozoa of the rat. 72 83

Using perfused livers of rats fasted for 48 hours, glucose production and incoroporation of 2-14C pyruvate (trace dose) into perfusate glucose were studied. Both were found to be inhibited by PGE1 (infuced at a concentration of 0.5 mu/min) by about 60%. The incorporation of 1-14C glycerol into perfusate glucose and into glycerol-glyceride part of the liver glycerides were also studied, using the same test conditions. The former incorporation was significantly inhibited (56%) and the latter strongly stimulated (360 %) by PGE1. PGE1 had no effect on glucose production in a perfusate overloaded with sodium pyruvate, nor on pyruvate carboxylase and phospho-enolpyruvate carboxykinase activity. this was in contrast with the results obtained in perfusions with a trace dose of 2-14C pyruvate. The results showed that PGE1, at the physiological concentration used, stimulated the incorporation of 1-14C glycerol into glycerol-glyceride part of liver glycerides and, when there was no overload of pyruvate present in the perfusion medium, inhibited gluconeogensis at some point, possibly, but perhaps not exclusively, between the glycerol and glucose steps.
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PMID:Effect of PGE1 on gluconeogenesis and glycerol esterification in perfused liver of fasted rats. 116 94

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