EC:4.1.1.49 - FACTA Search

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Query: EC:4.1.1.49 (phosphoenolpyruvate carboxykinase)
4,654 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The phosphoenolpyruvate carboxykinase (ATP:oxaloacetate carboxy-lyase (transphosphorylating), EC 4.1.1.49) of the epimastigote form of Trypanosoma (Schizotrypanum) cruzi has been purified to homogeneity. The enzyme is composed of two apparently identical 42,000 +/- 500 subunits, is highly specific for adenine nucleotides, and has a strict requirement of Mn2+ ions for activity; the activation of the enzyme by ionic Mn2+ reveals that one Mn2+ ion required for each 42,000 subunit. Hyperbolic kinetics are observed for all substrates in the carboxylation reaction with Km (phosphoenolpyruvate) of 0.36 +/- 0.08 mM, Km (HCO-3) of 3.7 +/- 0.2 mM, and Km (Mg-ADP) of 39 +/- 1 microM. In the decarboxylation reaction the kinetics with respect to oxalacetic acid are also hyperbolic with a Km of 27 +/- 3 microM, but towards Mg-ATP there is a biphasic response: hyperbolic at low (less than 250 microM) concentrations with a Km of 39 +/- 1 microM, but at higher concentrations the nucleotide produces a strong inhibition of the enzyme activity. This inhibition is also observed with Mg-GTP and Mg-ITP which are not substrates of the reaction. The results are consistent with an important regulatory function of the enzyme in the amino-acid catabolism of T. cruzi.
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PMID:The phosphoenolpyruvate carboxykinase of Trypanosoma (Schizotrypanum) cruzi epimastigotes: molecular, kinetic, and regulatory properties. 331 Aug 97

The mechanism of C4 acid decarboxylation was studied in bundle sheath cell strands from Urochloa panicoides, a phosphoenolpyruvate carboxykinase (PCK)-type C4 plant. Added malate was decarboxylated to give pyruvate and this activity was often increased by adding ADP. Added oxaloacetate or aspartate plus 2-oxoglutarate (which produce oxaloacetate via aspartate aminotransferase) gave little metabolic decarboxylation alone but with added ATP there was a rapid production of PEP. For this activity ADP could replace ATP but only when added in combination with malate. In addition, the inclusion of aspartate plus 2-oxoglutarate with malate plus ADP often increased the rate of pyruvate production from malate by more than twofold. Experiments with respiratory chain inhibitors showed that the malate-dependent stimulation of oxaloacetate decarboxylation (PEP production) was probably due to ATP generated during the oxidation of malate in mitochondria. We could provide no evidence that photophosphorylation could serve as an alternative source of ATP for the PEP carboxykinase reaction. We concluded that both PEP carboxykinase and mitochondrial NAD-malic enzyme contribute to C4 acid decarboxylation in these cells, with the required ATP being derived from oxidation-linked phosphorylation in mitochondria.
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PMID:Photosynthesis in phosphoenolpyruvate carboxykinase-type C4 plants: pathways of C4 acid decarboxylation in bundle sheath cells of Urochloa panicoides. 334 40

Mitochondria from bundle sheath cells of the phosphoenolpyruvate carboxykinase-type C4 species Urochloa panicoides were shown to have metabolic properties consistent with a role in C4 photosynthesis predicted from earlier studies. The rate of O2 uptake in response to added malate plus ADP was at least five times the activity observed with NADH, glycine, or succinate. With malate plus ADP the O2 uptake rate averaged about 150 nmol O2 min-1 mg-1 protein, equivalent to about 0.6 mumol min-1 mg-1 of extracted chlorophyll. About half of this activity was apparently phosphorylation-linked with ADP/O2 ratios of about 4. Studies with electron transport inhibitors suggested that about 65% of this malate oxidation is cytochrome oxidase-terminated with a minor component mediated via the alternative oxidase. These mitochondria supported rapid rates of pyruvate production from malate and this activity was also stimulated by ADP but blocked by inhibitors of electron transport. Adding oxaloacetate increased pyruvate production but inhibited O2 uptake. The results were consistent with the notion that in this subgroup of C4 species mitochondrial-located NAD malic enzyme contributes substantially to total C4 acid decarboxylation. This enzyme is apparently also the primary source of NADH necessary to generate the ATP required for phosphoenolpyruvate carboxykinase-mediated oxaloacetate decarboxylation.
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PMID:Photosynthesis in phosphoenolpyruvate carboxykinase-type C4 plants: activity and role of mitochondria in bundle sheath cells. 335 56

A highly specific and sensitive assay for the determination of phosphoenolpyruvate carboxykinase (PEPCK) in nanogram-sized tissue samples is described. This test system is based on the stoichiometric transformation of phosphoenolpyruvate into ATP. In a subsequent step ATP is quantified by bioluminescent techniques. The applicability of this assay system is shown by measurements in liver samples with normal and high PEPCK activity levels.
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PMID:A bioluminescent assay for the determination of phosphoenolpyruvate carboxykinase activity in nanogram-sized tissue samples. 339 34

The metabolic effects of 24 hours of neonatal fasting in unanesthetized dogs were compared to fasting for three hours during the first day of life. Blood glucose, lactate, and ketones were unaltered while FFA (0.94 +/- 0.07 v 0.70 +/- 0.04 mmol/L, P less than .01), glycerol (0.21 +/- 0.01 v 0.12 +/- 0.01 mmol/L, P less than .01), and triglycerides (0.41 +/- 0.03 v 0.23 +/- 0.03 mmol/L, P less than .01) were lower at 24 hours. Glucose production and lactate and alanine turnover were unaffected while palmitate turnover declined (8.8 +/- 0.7 v 5.1 +/- 0.5 mumol/kg/min, P less than .01). Oxygen consumption decreased (6.9 +/- 0.4 v 6.0 +/- 0.3 mL/kg/min, P less than .02) while RQ increased (0.79 +/- 0.02 v 0.86 +/- 0.03, P less than 0.05) at 24 hours. Hepatic glycogen content declined (575 +/- 37 to 266 +/- 32 mumol/g, P less than .001) and could account for a GP of 12 mumol/kg/min between 3 and 24 hours of age. Both gluconeogenesis from lactate and alanine increased, together accounting for 7% and 21% of glucose production at 3 and 24 hours. The increment in gluconeogenesis may be facilitated by augmented hepatic cytosolic phosphoenolpyruvate carboxykinase at 24 hours (1.8 +/- 0.2 v 14.1 +/- 0.8 nmol/min mg protein, P less than .01). Despite the decline in VO2, hepatic ATP and energy charge were unaltered by 24 hours of fasting. These data suggest that FFA availability diminishes during a prolonged neonatal canine fast resulting in lower VO2. Furthermore, as FFA availability declines, glucose utilization becomes the predominant precursor for energy production.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The metabolic response of the canine neonate to twenty-four hours of fasting. 358 14

Gluconeogenesis from fructose was studied in periportal and pericentral regions of the liver lobule in perfused livers from fasted, phenobarbital-treated rats. When fructose was infused in increasing concentrations from 0.25 to 4 mM, corresponding stepwise increases in glucose formation by the perfused liver were observed as expected. Rates of glucose and lactate production from 4 mM fructose were around 100 and 75 mumol/g/h, respectively. Rates of fructose uptake were around 190 mumol/g/h when 4 mM fructose was infused. 3-Mercaptopicolinate, an inhibitor of phosphoenolpyruvate carboxykinase, decreased glucose formation from fructose maximally by 20% suggesting that a fraction of the lactate formed from fructose is used for glucose synthesis. A good correlation (r = 0.92) between extra oxygen consumed and glucose produced from fructose was observed. At low fructose concentrations (less than 0.5 mM), the extra oxygen uptake was much greater than could be accounted for by glucose synthesis possibly reflecting fructose 1-phosphate accumulation. Furthermore, fructose diminished ATP/ADP ratios from about 4.0 to 2.0 in periportal and pericentral regions of the liver lobule indicating that the initial phosphorylation of fructose via fructokinase occurs in both regions of the liver lobule. Basal rates of oxygen uptake measured with miniature oxygen electrodes were 2- to 3-fold higher in periportal than in pericentral regions of the liver lobule during perfusions in the anterograde direction. Infusion of fructose increased oxygen uptake by 65 mumol/g/h in periportal areas but had no effect in pericentral regions of the liver lobule indicating higher local rates of gluconeogenesis in hepatocytes located around the portal vein. When perfusion was in the retrograde direction, however, glucose was synthesized nearly exclusively from fructose in upstream, pericentral regions. Thus, gluconeogenesis from fructose is confined to oxygen-rich upstream regions of the liver lobule in the perfused liver.
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PMID:Gluconeogenesis from fructose predominates in periportal regions of the liver lobule. 359 22

Phosphoenolpyruvate carboxykinase (PEPCK, EC 4.1.1.49) has been purified 940-fold from Veillonella parvula using protamine sulphate treatment, ammonium sulphate precipitation, and column chromatography. The purified enzyme was substantially free of contaminating enzymes or proteins. Maximum activity in the direction of oxaloacetate (OAA) decarboxylation was exhibited at pH 9.0. At this pH, the V. parvula enzyme catalysed phosphoenolpyruvate formation in the presence of Mn2+ ions. In the presence of varying concentrations of OAA and ATP, the PEPCK from V. parvula exhibited hyperbolic kinetics with KmS of 0.16 and 0.46 mM, respectively. PEPCK from the anaerobe was not inhibited by NADH, succinate, glutamate, D-glucose-6-phosphate, acetyl phosphate, D-fructose, 1,6-bisphosphate, pyruvate, ribose 5-phosphate, and aspartate. However, acetyl CoA, glyceraldehyde 3-phosphate, 3-phospho-D-glycerate, CTP, and GTP activated the enzyme. The activation of acetyl CoA was uncompetitive and noncooperative.
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PMID:Activation of phosphoenolpyruvate carboxykinase isolated from Veillonella parvula. 377 63

Rabbit pancreatic islet cytosol catalyzes the calcium-activated phosphorylation by [gamma 32P]ATP of a protein with a molecular weight of 57,000 that is precipitated with antipyruvate kinase antibodies. We were unable to demonstrate that phosphorylation in the presence of calcium or cAMP had any immediate effect on rat pancreatic islet pyruvate kinase activity. This finding is consistent with our inability to confirm the finding of others that pancreatic islets contain phosphoenolpyruvate carboxykinase activity (Diabetes, 34:246, 1985). Since the carboxykinase catalyzes phosphoenolpyruvate formation and pyruvate kinase catalyzes essentially the opposite reaction, if the carboxykinase were present in the beta cell, pyruvate kinase would need to be inhibited to prevent recycling of phosphoenolpyruvate.
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PMID:Evidence for phosphorylation of pancreatic islet pyruvate kinase. 389 25

Hepatocytes were isolated from the livers of fed rats and incubated, in the presence and absence of 100 nM-glucagon, with a substrate mixture containing glucose (10 mM), fructose (4 mM), alanine (3.5 mM), acetate (1.25 mM), and ribose (1 mM). In any given incubation one substrate was labelled with 14C. Incorporation of 14C into glucose, glycogen, CO2, lactate, alanine, glutamate, lipid glycerol and fatty acids was measured after 20 and 40 min of incubation under quasi-steady-state conditions [Borowitz, Stein & Blum (1977) J. Biol. Chem. 252, 1589-1605]. These data and the measured O2 consumption were analysed with the aid of a structural metabolic model incorporating all reactions of the glycolytic, gluconeogenic, and pentose phosphate pathways, and associated mitochondrial and cytosolic reactions. A considerable excess of experimental measurements over independent flux parameters and a number of independent measurements of changes in metabolite concentrations allowed for a stringent test of the model. A satisfactory fit to the data was obtained for each condition. Significant findings included: control cells were glycogenic and glucagon-treated cells glycogenolytic during the second interval; an ordered (last in, first out) model of glycogen degradation [Devos & Hers (1979) Eur. J. Biochem. 99, 161-167] was required in order to fit the experimental data; the pentose shunt contributed approx. 15% of the carbon for gluconeogenesis in both control and glucagon-treated cells; net flux through the lower Embden-Meyerhof pathway was in the glycolytic direction except during the 20-40 min interval in glucagon-treated cells; the increased gluconeogenesis in response to glucagon was correlated with a decreased pyruvate kinase flux and lactate output; fluxes through pyruvate kinase, pyruvate carboxylase, and phosphoenolpyruvate carboxykinase were not coordinately controlled; Krebs cycle activity did not change with glucagon treatment; flux through the malic enzyme was towards pyruvate formation except for control cells during interval II; and 'futile' cycling at each of the five substrate cycles examined (including a previously undescribed cycle at acetate/acetyl-CoA) consumed about 26% of cellular ATP production in control hepatocytes and 21% in glucagon-treated cells.
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PMID:Quantitative analysis of intermediary metabolism in hepatocytes incubated in the presence and absence of glucagon with a substrate mixture containing glucose, ribose, fructose, alanine and acetate. 391 12

Glutathione-depleted hepatocytes, by incubation with diethylmaleate (DEM) or phorone (2,6-dimethyl-2,5-heptadiene-4-one), i.e., substrates of the GSH S-transferases (EC 2.5.1.18), showed rates of gluconeogenesis from various precursors significantly lower than controls; however the rate of glucose synthesis from fructose was similar to that of controls. Isolated hepatocytes from rats pretreated with those substrates 1 h before isolation to deplete hepatic glutathione (GSH) also showed a decrease of the rate of gluconeogenesis from lactate plus pyruvate. Incubation of hepatocytes with L-buthionine sulfoximine, a specific inhibitor of gamma-glutamyl-cysteine synthetase (EC 6.3.2.2), resulted in a decreased rate of gluconeogenesis from lactate plus pyruvate only when GSH values were lower than 1 mumol/g cells. Freeze-clamped livers from GSH-depleted rats showed a higher concentration of malate and glycerol 3-phosphate, indicating that GSH depletion probably affects phosphoenolpyruvate carboxykinase and glycerol-3-phosphate dehydrogenase activities. Several indicators of cell viability, such as lactate dehydrogenase leakage, malondialdehyde accumulation, ATP concentration, or urea synthesis from different precursors, were not affected by GSH depletion under the experimental conditions used here. Besides, the GSH/GSSG ratio remained unchanged in all cases.
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PMID:Effects of glutathione depletion on gluconeogenesis in isolated hepatocytes. 402 24

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