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

The capacity for gluconeogenesis in the isolated amphibian retina was found to be approx. 70-fold greater with lactate than with glutamate as the gluconeogenic precursor, 1426 versus 21 pmol of glucose incorporated into glycogen/h per mg of protein. It was also found that 11-15% of the glucosyl units in glycogen are derived from C3 metabolites of the glycolytic pathway, suggesting that lactate is recycled within the retina. In concert with these metabolic observations, a full complement of the gluconeogenic enzymes was detected in retinal homogenates. These included: glucose-6-phosphatase, fructose-1,6-bisphosphatase, acetyl-CoA-dependent pyruvate carboxylase and phosphoenolpyruvate carboxykinase. Agents that regulate the rate of gluconeogenesis in hepatic tissue were tested on the retina. At concentrations of glutamate and lactate that are presumed to be relevant physiologically, it was found that vasoactive intestinal peptide, ionophore A23187 and elevated [K+] each enhanced the rate of gluconeogenesis in Ringer containing 50 microM-glutamate, whereas in Ringer containing 8.5 mM-lactate these agents inhibited the rate of gluconeogenesis. Further, it was found that the classic gluconeogenic hormone glucagon inhibited gluconeogenesis in both glutamate- and lactate-containing Ringer. Retinal energy metabolism was found to be altered in lactate-containing Ringer, in that lactate production was suppressed completely. In addition, glycogen metabolism appeared to be dependent on increased cytosolic Ca2+ and was insensitive to increased retinal cyclic AMP.
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PMID:Gluconeogenesis in the amphibian retina. Lactate is preferred to glutamate as the gluconeogenic precursor. 290 49

Glycerol, glycerol-3-phosphate (G3P), and dihydroxyacetone phosphate (DHAP) were evaluated as inhibitors of gluconeogenesis on rat liver enzymes in vitro, and for their effects on glucose formation in vivo in well-nourished and malnourished rats. DHAP was more potent as an inhibitor than G3P on fructose-1,6-diphosphatase (FDPase), phosphoenolpyruvate carboxykinase (PEPCK), and glucose-6-phosphatase (G6Pase). The I50 for DHAP was 2, 8, and 9 x 10(-3) M, respectively. No effect was observed on rat liver pyruvate carboxylase (PC). Glycerol was a weak inhibitor of FDPase and PEPCK, but did not inhibit PC and G6Pase. In vivo, when G3P was injected before a parenteral L-alanine (Ala) challenge, it produced a hypoglycemic effect in malnourished rats and a lesser, but noticeable, blood glucose level reduction in well-fed animals. Glycerol caused a smaller reduction in glucose formation from Ala. No comparable effects were observed after a fructose pretreatment. These results underscore the potential hypoglycemic effects of phosphorylated glycerol metabolites and identify the steps in gluconeogenesis where this action is exerted. The study also stresses the nutritional component in the glycerol intolerance syndrome, apparent from the far more severe effects observed in malnourished rats given G3P or glycerol prior to Ala.
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PMID:Regulation of gluconeogenesis by glycerol and its phosphorylated derivatives. 298 19

Fetal and maternal sheep were studied to determine whether changes in gluconeogenic enzyme activities could be detected in the liver and/or kidney associated with maternal nutritional deprivation. Thirteen ewes and 16 fetuses were sacrificed in the fed state, while 13 ewes with 17 fetuses were sacrificed after 5 days of fasting, all at 125 days gestation (term = 147 days). Fetal weight was decreased in the fasted versus fed group (2.86 +/- 0.56 versus 3.61 +/- 0.58 kg, p less than 0.001). Tissues were analyzed for glucose-6-phosphatase, fructose-1,6-diphosphatase, pyruvate carboxylase, phosphoenolpyruvate carboxykinase, glutamate oxaloacetate aminotransferase, and glutamate pyruvate aminotransferase. In maternal liver, four of the six enzymes increased significantly during fasting, whereas none of the enzymes increased in maternal kidney. In fetal hepatic tissue, five of the six enzymes (with the exception of pyruvate carboxylase) increased during maternal fasting and three of the enzymes increased in renal tissue. These data are consistent with the potential for increased rates of gluconeogenesis in the ovine fetus during periods of compromised maternal nutrition.
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PMID:Effects of fasting on gluconeogenic enzymes in the ovine fetus. 372 67

A 42-year-old man was admitted because of episodic attack of general malaise. He was lethargic and had a severe lactic acidosis and hypoglycemia. Blood chemistry and endocrinological data were normal. Glucose administration led to an improvement in the hypoglycemia but not the lactic acidosis. At autopsy, there was a massive infiltration of leukemic cells in both kidneys and in liver. Phosphoenolpyruvate carboxykinase, pyruvate carboxylase and glucose-6-phosphatase activities in patient's liver were much the same as in the control liver, but fructose-1, 6-diphosphatase activity was slightly reduced. Since circulatory failure was absent, type B lactic acidosis has to be considered. Since hypoglycemia was associated with acidosis, the severe lactic acidosis in our patient may have been due to an overproduction of lactic acid as well as to an impaired hepatic gluconeogenesis in the presence of leukemic cells.
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PMID:Lactic acidosis and hypoglycemia associated with acute leukemia. 386 4

Daily intraperitoneal injection of cadmium chloride (1 milligram per kilogram) for 45 days enhanced gluconeogenesis as evidenced by significant increases in the activities of liver and kidney cortex pyruvate carboxylase, phosphopyruvate carboxylase, hexosediphosphatase, and glucose-6-phosphatase, the quartet of key, rate-limiting enzymes involved in the biotransformation of noncarbohydrate precursors into glucose. Whereas cadmium treatment decreased the level of hepatic glycogen, the concentration of blood glucose and urea was significantly elevated by this heavy metal. Discontinuation of the heavy metal treatment for 28 days, in rats previously injected with cadmium for 45 days, failed to restore the observed biochemical alterations in hepatic and renal carbohydrate metabolism to control values. Evidence indicates that cadmium augments the glucose-synthesizing capacity of liver and kidney cortex and that various metabolic changes persist even after a 4-week period of withdrawal from exposure to the heavy metal.
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PMID:Persistence of cadmium-induced metabolic changes in liver and kidney. 435 15

The congenital lactic acidosis form a heterogeneous group of inborn errors that includes defects of gluconeogenesis, the pyruvate dehydrogenase complex, the Krebs cycle and the respiratory chain. These disorders are not easily classified because of the absence of specific metabolites, difficulties in providing suitable tissue specimens and technical problems with the enzyme assays. The commonest causes of lactic acidosis due to inborn errors are the deficiencies of glucose-6-phosphatase and fructose bisphosphatase, which present with hypoglycaemia, lactic acidosis and hepatomegaly. Pyruvate carboxylase and phosphoenolpyruvate deficiencies vary considerably in both clinical expression and biochemical findings. Neurological symptoms predominate in defects of the pyruvate dehydrogenase complex, and some cases of the spinocerebellar ataxias may be due to partial defects of the pyruvate and 2-oxoglutarate dehydrogenase complexes.
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PMID:Problems in the congenital lactic acidoses. 628 Sep 37

Administration of low levels of lead (0.001, 0.005 and 0.025 micrograms/g/day p.o.) to neonate rats from age three days to eight weeks failed to alter the activities of hepatic glucose-6-phosphatase, fructose-1,6-diphosphatase, pyruvate carboxylase and phosphoenolpyruvate carboxykinase, the four key gluconeogenic enzymes. Administration of lead at a higher dose (0.1 micrograms/g/day p.o.) was also observed to produce no alterations in enzyme activity at eight weeks. However, the higher dose did enhance the activities of fructose-1,6-diphosphatase and phosphoenolpyruvate carboxykinase at age six weeks. Plasma insulin and glucagon were not significantly altered by up to 0.025 micrograms/g exposure to lead until eight weeks of age, although levels of these hormones appear to be slightly dose-responsive tending towards elevated glucagon and decreased insulin levels with increasing lead dosage. At 0.1 micrograms/g/day glucagon was significantly increased at eight weeks. Blood glucose and hepatic glycogen remained unaltered. Blood, hepatic and pancreatic lead levels were unchanged by treatment with lead up to 0.025 micrograms/g/day to eight weeks of age, but there was evidence of lead accumulation in pancreatic tissue whereas levels of the metal in the liver paralleled those in the blood. Significant increases were observed with 0.1 micrograms/g/day lead at six and eight weeks in blood and pancreas. Data are presented which suggest that six week old animals are more influenced by subacute lead exposure than are the eight week old animals, as reflected in some alteration of gluconeogenic enzyme activity in younger rats.
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PMID:Effects of subacute low level lead exposure on glucose homeostasis. 630 42

Serum glucose, serum protein, serum glutamic oxalacetic transaminase (SGOT), serum glutamic pyruvic transaminase (SGPT), and hepatic and renal gluconeogenic enzymes [pyruvate carboxylase (PC), phosphoenolpyruvate carboxykinase (PEPCK), fructose-1,6-diphosphatase (F-1,6-DPase), and glucose-6-phosphatase (G-6-Pase)] were determined in rats treated daily with cadmium alone (0.25 mg/kg X d, injected ip and in rats pretreated with spironolactone (50 mg/kg x d and 100 mg/kg X d, injected sc) prior to cadmium administration. Rats receiving no treatment, propylene glycol, or spironolactone (100 mg/kg X d, injected sc) were used as controls. The daily treatments were continued for an extended period of 90 d, and the rats were sacrificed at 30-, 60-, and 90-d intervals during the continuous daily treatment schedule. Cadmium treatment significantly increased the amount of serum protein, glucose, serum enzymes, and all the four key gluconeogenic enzymes as compared to controls. Pretreatment of rats with spironolactone 6 h prior to cadmium injection daily antagonized the cadmium effect of the above parameters. It appears from these results that spironolactone reduces the effects of cadmium on the key gluconeogenic enzymes in rat kidney and liver.
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PMID:Influence of spironolactone on cadmium-induced changes in hepatic and renal gluconeogenic enzymes in rats. 712 May 5

Male Sprague-Dawley rats were administered cadmium chloride 0, 50, 100, 150 and 200 ppm for 30 days. At the end of the treatments, the body weight gains, serum glucose, serum protein, serum glutamic oxalacetic transaminase (SGOT) and serum glutamic pyruvic transaminase (SGPT) were determined. Renal and hepatic key gluconeogenic enzymes; viz., pyruvate carboxylase, phosphoenol pyruvate carboxykinase, fructose-1, 6-diphosphatase and glucose-6-phosphatase were also determined. A significant decrease in body weight gain in rats treated with cadmium was observed. The serum glucose and protein levels were increased in rats receiving cadmium through feed. All four key gluconeogenic enzymes were increased in both kidney and liver tissues of rats treated with cadmium. The present results indicate that cadmium may induce gluconeogenesis from non-carbohydrate sources.
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PMID:Cadmium induced changes in gluconeogenic enzymes in rat kidney and liver. 721

Gluconeogenic enzymes and substrates were measured in the livers of fasted and suckled newborn pigs in the first 48 h postpartum. The activities at birth of glucose-6-phosphatase, fructose-1,6-diphosphatase, pyruvate carboxylase and phosphoenolpyruvate carboxykinase were, respectively, 70%, 45%, 117% and 35% of adult values. At birth, cytosolic phosphoenolpyruvate carboxykinase represented 35% of total activity, a similar distribution to that in the adult. In suckled piglets, all activities were greater at 24 and 48 h that at birth. In starved piglets, the increases were greater in all cases; the increase in cytosolic phosphoenolpyruvate carboxykinase was much more pronounced than for that for the particulate enzyme, with the former representing more than 50% of total at 48 h. The levels of gluconeogenic enzymes in the piglets in the early neonatal period would appear to be adequate for their needs and do not provide an explanation for their fasting hypoglycaemia. Hepatic levels of lactate, pyruvate, phosphoenolpyruvate, ketone bodies, and amino acids were determined in these piglets. No significant differences were observed in these metabolites between fasted and suckled animals except that glutamine was doubled in fed piglets, Evidence for the metabolic block in the livers of fasted animals was lacking and ketone bodies did not accumulate. These observations suggest that the limitations to gluconeogenesis result from unavailability of energy substrates and/or carbon precursors to the liver or the deficiency in their uptake.
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PMID:Development of gluconeogenic enzymes in the liver of fasting or suckling newborn pigs. 733 8


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