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)

We have developed a method for rapid differential diagnosis of isolated or multiple deficiencies of the 3 mitochondrial biotin-dependent carboxylases: propionyl-CoA (PCC), 3-methylcrotonyl-CoA (MCC) and pyruvate carboxylase (PC), and for simultaneous evaluation of biotin-responsiveness using a single blood sample. Lymphocytes were isolated from heparinized blood and preincubated without and with 10(-5) mol/l biotin in medium before determination of PCC, MCC and PC activities. Plasma was used for estimation of biotin concentration and biotinidase activity. A definitive diagnosis could be made in 7 of 9 patients studied up to now: 4 patients suffered from biotin-nonresponsive isolated PCC-deficiency, and 3 patients from biotin-responsive multiple carboxylase deficiency caused by deficient biotinidase activity. In two patients, a carboxylase deficiency was excluded. These results were confirmed in studies using fibroblasts. In addition, a simple method for detection of deficiency in holocarboxylase synthesis is described.
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PMID:Rapid differential diagnosis of carboxylase deficiencies and evaluation for biotin-responsiveness in a single blood sample. 391 14

Cell-free extracts of Rhizopus arrhizus contain exclusively cytosolic pyruvate carboxylase and NAD-glutamate dehydrogenase, a single mitochondrial isoenzyme of NADP-isocitrate dehydrogenase, and both mitochondrial and cytosolic isoenzymes of NADP-malate dehydrogenase (decarboxylating). Other enzymes examined have sub-cellular localisations similar to those characteristic of mammalian liver. Purified preparations of R. arrhizus pyruvate carboxylase are subject to partial regulatory inhibition by L-aspartate and 2-oxoadipate. L-Glutamate acts as a less effective analogue of L-aspartate while 2-oxoglutarate is ineffective. Competition studies indicate the presence of separate inhibitory sites for L-aspartate and 2-oxoadipate. Under routine assay conditions R. arrhizus pyruvate carboxylase shows significant activation by acyl derivatives of coenzyme A with long chain acyl CoA being more effective than acetyl-CoA. This activation is no longer observed in the presence of high concentrations of pyruvate, MgATP2- and HCO-3. The concentrations of L-aspartate and 2-oxoadipate required to give 50% inhibition ([I]0.5), and the maximal extents of inhibition, are increased by addition of acetyl-CoA. Acetyl-CoA increases the sigmoidal character of the relationship: initial rate/[L-aspartate], but decreases this parameter for the relationship: initial rate/[2-oxoadipate]. The studies indicate that R. arrhizus possesses an entirely cytosolic pathway for the conversion of glucose to fumaric acid and that both the organisation of pyruvate metabolism and the regulation of pyruvate carboxylase differ significantly in this organism as compared to that proposed previously for Aspergillus nidulans.
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PMID:The sub-cellular localisation and regulatory properties of pyruvate carboxylase from Rhizopus arrhizus. 397 71

Affinity chromatography on avidin-Sepharose column was used to bind the biotin-containing carboxylases from rat liver. With a biotin gradient (0-0.3 mM), peaks of activity of pyruvate, propionly CoA and beta-methylcrotonyl CoA carboxylases co-eluted. Subsequent separation of the three carboxylases was attained using DEAE-Sepharose chromatography. Sodium dodecyl sulphate-polyacrylamide gel electrophoresis showed each of the enzymes to be pure, with pyruvate carboxylase giving a single subunit band (Mr 130 000), propionyl-CoA carboxylase giving two bands (Mr 73 000 and 56 500) and beta-methylcrotonyl-CoA carboxylase giving two bands (Mr 75 000 and 60 000). The specific activity of propionyl-CoA carboxylase (15.8 munits/mg) and beta-methylcrotonyl-CoA carboxylase (24.2 munits/mg) were comparable with reported activities for these purified enzymes, while that of pyruvate carboxylase (1.25 munits/mg) was low. This is a suitable method for the simultaneous preparation of purified carboxylases for the specific purpose of raising antisera to these enzymes.
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PMID:Simultaneous preparation of the three biotin-containing mitochondrial carboxylases from rat liver. 399 77

1. Pyruvate carboxylase was purified to apparent homogeneity from pig liver mitochondria and shown to be free of all kinetically contaminating enzymes. 2. The enzyme has a mol. wt. of 520000 and is composed of four subunits, each with a mol. wt. of 130000. 3. The enzyme can exist as the active tetramer, dimer and monomer, although the tetramer appears to be the form in which the enzyme is normally assayed. 4. For every 520000g of the enzyme there are 4mol of biotin, 3mol of zinc and 1mol of magnesium. No significant concentrations of manganese were detected. 5. Analysis by sodium dodecyl sulphate-polyacrylamide gel electrophoresis indicates three polypeptide chains per monomer unit, each with a mol. wt. of 47000. 6. The amino acid analysis, stoicheiometry of the reaction and the activity of the enzyme as a function of pH are also presented. 7. The enzyme is activated by a variety of univalent cations but not by Tris(+) or triethanolamine(+). 8. The activity of the enzyme is dependent on the presence of acetyl-CoA; the low rate in the absence of added acetyl-CoA is not due to an enzyme-bound acyl-CoA. The dissociation constant for enzyme-bound acetyl-CoA is a marked function of pH.
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PMID:Pig liver pyruvate carboxylase. Purification, properties and cation specificity. 444 11

Cell-free extracts of Bacillus licheniformis were found to contain pyruvate carboxylase which catalyzes the reaction between pyruvate and bicarbonate to yield oxalacetate in the presence of adenosine triphosphate (ATP), acetylcoenzyme A (CoA), and manganese. The plot between the reaction velocity of the carboxylation by the partially purified pyruvate carboxylase (25-fold) and the concentration of pyruvate, bicarbonate, manganese, and ATP did not indicate a pronounced deviation from the Michaelis-Menten hyperbola. The enzyme was inhibited by avidin and aspartate. Biotin partially protected the enzyme from avidin inhibition, whereas the amount of inhibition by aspartate was dependent on the concentration of acetyl-CoA present. The intracellular concentration of acetyl-CoA did not vary significantly enough to allow control of the enzyme by this method. Extracts of 4-hr postexponential-phase cells of B. licheniformis were also found to contain phosphoenolpyruvate carboxykinase, which appears to be under catabolite repression control. It is suggested that the endogenous induction of this enzyme is the determining factor allowing the shift to gluconeogenesis from glycolysis during sporulation of glucose-grown cells.
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PMID:Characterization and regulation of pyruvate carboxylase of Bacillus licheniformis. 505 52

1. Administration of propionate caused a twofold increase in the concentrations of lactate and pyruvate in the blood of vitamin B(12)-deficient rats, whereas there was a slight decrease in lactate and a 50% increase in pyruvate in normal rats. 2. Concentrations of total ketone bodies in the blood of normal rats were not significantly altered by propionate administration but the [3-hydroxybutyrate]/[acetoacetate] ratio decreased from 3.0 to 2.0. In the vitamin B(12)-deficient rats there was a 40% decrease in total ketone bodies and a change in the ratio from 3.4 to 1.2. 3. The changes in the concentration of ketone bodies in freeze-clamped liver preparations were similar in pattern to those observed in blood. 4. Propionate administration caused a decrease in the concentration of acetyl-CoA in the livers of both groups of animals, but the absolute decrease was greater in the vitamin B(12)-deficient group. The decrease in the concentration of CoA was similar in both groups. 5. As in blood, there were threefold increases in the concentrations of lactate and pyruvate in the livers of the vitamin B(12)-deficient rats after propionate administration, whereas there was no significant change in the concentrations of these metabolites in the normal rats. 6. There was a 50% inhibition of glucose synthesis in perfused livers from vitamin B(12)-deficient rats when lactate and propionate were substrates as compared with lactate alone. 7. It is concluded that the conversion of lactate into glucose is inhibited in vitamin B(12)-deficient rats after propionate administration, and that this effect is due to inhibition of the pyruvate carboxylase step resulting from a decrease in acetyl-CoA concentration and a postulated increase in methylmalonyl-CoA concentration.
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PMID:Metabolic effects of propionate in normal and vitamin B 12 -deficient rats. 513 36

Three enzymes involved in the conversion of 3T3-L2 fibroblasts into fat cells, acetyl CoA carboxylase (ACC), fatty acid synthetase (FAS) and pyruvate carboxylase (PC) have been localized by immunofluorescence techniques. The method enables the identification of cells undergoing the conversion while they are still fibroblastic in appearance, often before the obvious appearance of fat droplets. Specific fluorescence for each enzyme can be seen in "clones" of cells derived from single cells, which may undergo an event during logarithmic growth, which programs the cells to differentiate subsequent to confluence of and addition of induction medium.
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PMID:Immunofluorescent localization of acetyl CoA carboxylase, fatty acid synthetase and pyruvate carboxylase during the adipocyte conversion of 3T3 fibroblasts. 610 17

Among more than 7000 mutants of Saccharomyces cerevisiae, requiring saturated fatty acids, 61 acetyl-CoA-carboxylase-deficient strains have been identified. According to their mutual complementation characteristics these mutants have been assigned to two different genes, acc1 and acc2. Both acetyl-CoA carboxylase genes are unlinked to each other and to the fatty acids synthetase genes fas1 and fas2. The acetyl-CoA carboxylases of several acc1 and acc2 mutants have been purified and assayed for their overall and component enzyme activities. Besides overall acetyl-CoA carboxylation, which was lost in all cases, both component enzymes, biotin carboxylase and transcarboxylase, were simultaneously affected in most mutants, though often to a different relative extent. Similarly, the comparison of biochemical and genetic complementation data revealed no basis for a clear distinction between specific biotin carboxylase and transcarboxylase mutants. These results suggest that acc1 is a cluster gene coding for a multifunctional protein harboring both acetyl-CoA carboxylase component enzyme activities on the same polypeptide chain. The acetyl-CoA carboxylase isolated from acc2 mutants was free of biotin. Correspondingly, biotin:apoacetyl-CoA-carboxylase ligase activity was missing in acc2 mutants. Therefore, it is concluced that the primary defect in acc2 mutants is in the biotin:apocarboxylase ligase. In agreement with this conclusion, the acc2 acetyl-CoA carboxylase can be activated, in the presence of biotin and ATP, by ligase preparations from wild-type or acc1 mutant cells. By the use of these mutants, evidence was obtained that in vivo the biotinylation of both acetyl-CoA carboxylase and pyruvate carboxylase is catalyzed by the same ligase.
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PMID:Yeast mutants defective in acetyl-coenzyme A carboxylase and biotin: apocarboxylase ligase. 610 18

Multiple carboxylase deficiency has previously been characterized by deficient activity of three biotin-dependent enzymes: propionyl CoA carboxylase, pyruvate carboxylase and beta-methylcrotonyl CoA carboxylase. We have demonstrated that the activity of a fourth carboxylase, acetyl CoA carboxylase (ACC), is also deficient in fibroblasts from two patients with this disorder. Furthermore, ACC activity increased six- to eight-fold when cells from these patients were incubated in culture medium containing supplemental biotin. If the primary defect in multiple carboxylase deficiency is due to deficient activity of holocarboxylase synthetase, our results would indicate that there may be a common holocarboxylase synthetase, or at least a common subunit, for all the carboxylases. Finally, since ACC catalyzes the initial step in fatty acid biosynthesis, our results further suggest the importance of dietary supplementation with fatty acids in addition to treating these patients with pharmacologic doses of biotin.
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PMID:Deficient acetyl CoA carboxylase activity in multiple carboxylase deficiency. 611 81

In biotin-responsive multiple carboxylase deficiency, a characteristic organic aciduria reflects in vivo deficiency of mitochondrial propionyl CoA carboxylase, 3-methylcrotonyl CoA carboxylase, and pyruvate carboxylase. A possible primary or secondary defect in biotin absorption leads to an infantile-onset syndrome, while abnormal holocarboxylase synthetase activity has been identified in the neonatal-onset form. While distinct mitochondrial and cytosolic holocarboxylase synthetase biotinylation systems may exist in avian tissues, the system has not been characterized in humans. Toward this objective, we studied the biotin dependence of a cytosolic carboxylase, acetyl CoA carboxylase (ACC), in cultured skin fibroblasts of both types of multiple carboxylase deficiency. ACC specific activities in control and infantile-onset cells were not distinguishable at all biotin concentrations: with decreasing biotin availability (+ avidin), there were only modest decrements in ACC activity in both these cell types. In contrast, there were pronounced declines of ACC activity in neonatal-onset (holocarboxylase synthetase-deficient) cells after growth in low biotin concentrations, and activity was undetectable in + avidin. ACC activity was rapidly restored with biotin repletion to biotin-starved holocarboxylase synthetase-deficient cells, and this restoration was largely independent of protein synthesis. The behavior of the cytosolic carboxylase, ACC, is in all these respects identical to that of the mitochondrial carboxylases, an observation consistent with the existence of similar biotinylation mechanisms in the two cell compartments. Further, the data support the notion that at least some components of the holocarboxylase synthetase system are shared by mitochondria and cytosol in humans, and are consistent with the suggestion that restoration of activity in biotin-depleted cells represents biotinylation of preexisting enzyme protein. The modest decrements in ACC activity in normal and infantile-onset cells may be related to the compromised epidermal integrity observed in that form of multiple carboxylase deficiency. Finally, ACC and mitochondrial carboxylase activities were compared in cells from mutants representing a spectrum of clinical severity. Cells from later-onset patients of intermediate clinical severity were ultimately classifiable as putative holocarboxylase synthetase-deficient cells on chemical criteria. Accurate etiologic classification cannot be based on clinical presentation alone, and biochemical studies should be performed on all patients. Accordingly, we propose a classification of multiple carboxylase deficiency based on biochemical criteria.
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PMID:Acetyl CoA carboxylase in cultured fibroblasts: differential biotin dependence in the two types of biotin-responsive multiple carboxylase deficiency. 614 28

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