EC:3.1.3.16 - FACTA Search

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Query: EC:3.1.3.16 (calcineurin)
17,112 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. The action of beryllium on the following enzymes has been examined: alkaline phosphatase (Escherichia coli and kidney), acid phosphatase, phosphoprotein phosphatase, apyrase (potato), adenosine triphosphatase (liver nuclei, liver mitochondria, brain microsomes), glucose 6-phosphatase, polysaccharide phosphorylases a and b, phosphoglucomutase, hexokinase, phosphoglyceromutase, ribonuclease, A-esterase (rabbit serum), cholinesterase (horse serum), chymotrypsin. Alkaline phosphatase and phosphoglucomutase are inhibited by 1mum-beryllium sulphate whereas the other enzymes are largely unaffected by 1mm-beryllium sulphate. 2. Possible mechanisms for the inhibition of phosphoglucomutase and alkaline phosphatase are discussed.
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PMID:The inhibition of enzymes by beryllium. 428 87

Exogenous purified rabbit skeletal-muscle glycogen synthase was used as a substrate for adipose-tissue phosphoprotein phosphatase from fed and starved rats in order to (1) compare the relationship between phosphate released from, and the kinetic changes imparted to, the substrate and (2) ascertain if decreases in adipose-tissue phosphatase activity account for the apparent decreased activation of endogenous glycogen synthase from starved as compared with fed rats. Muscle glycogen synthase was phosphorylated with [gamma-(32)P]ATP and cyclic AMP-dependent protein kinase alone, or in combination with a cyclic AMP-independent protein kinase, to 1.7 or 3mol of phosphate per subunit. Adipose-tissue phosphatase activity determined with phosphorylated skeletal-muscle glycogen synthase as substrate was decreased by 35-60% as a consequence of starvation. This decrease in phosphatase activity had little effect on the capacity of adipose-tissue extracts to activate exogenous glycogen synthase (i.e. to increase the glucose 6-phosphate-independent enzyme activity), although there were marked differences in the activation profiles for the two exogenous substrates. Glycogen synthase phosphorylated to 1.7mol of phosphate per subunit was activated rapidly by adipose-tissue extracts from either fed or starved rats, and activation paralleled enzyme dephosphorylation. Glycogen synthase phosphorylated to 3mol of phosphate per subunit was activated more slowly and after a lag period, since release of the first mol of phosphate did not increase the glucose 6-phosphate-independent activity of the enzyme. These patterns of enzyme activation were similar to those observed for the endogenous adipose-tissue glycogen synthase(s): the glucose 6-phosphate-independent activity of the endogenous enzyme from fed rats increased rapidly during incubation, whereas that of starved rats, like that of the more highly phosphorylated muscle enzyme, increased only very slowly after a lag period. The observations made here suggest that (1) changes in glucose 6-phosphate-independent glycogen synthase activity are at best only a qualitative measure of phosphoprotein phosphatase activity and (2) the decrease in glycogen synthase phosphatase activity during starvation is not sufficient to explain the differential glycogen synthase activation in adipose tissue from fed and starved rats. However, alterations in the phosphorylation state of glycogen synthase combined with decreased activity of phosphoprotein phosphatase, both as a consequence of starvation, could explain the apparent markedly decreased enzyme activation.
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PMID:Dephosphorylation and activation of exogenous glycogen synthase by adipose-tissue phosphatase. 625 May 40

Phosphorylation of rabbit skeletal muscle glycogen synthase by cyclic AMP-independent synthase kinase 1 results in the incorporation of 4 mol of PO4/subunit. Incubation of the phosphorylated synthase with rabbit muscle phosphoprotein phosphatase brings about the hydrolysis of phosphates from all four major tryptic peptides and an increase in the synthase activity ratio from 0.01 to 0.85. Incubation of the phosphorylated synthase with calf intestinal alkaline phosphatase brings about the preferential hydrolysis of phosphates from three of the four major tryptic peptides and a slight increase in the four major tryptic peptides and a slight increase in the synthase activity ratio from 0.01 to 0.1. The phosphorylation site which is resistant to hydrolysis by calf intestinal alkaline phosphatase can be dephosphorylated by subsequent incubation with rabbit muscle phosphoprotein phosphatase. This dephosphorylation is accompanied by an increase in the synthase activity ratio to approximately 0.9. Measurements of the changes in the kinetic properties of the synthase samples dephosphorylated by alkaline phosphatase reveal that the phosphorylation sites susceptible to hydrolysis by alkaline phosphatase mainly affect the binding of glucose-6-P to the synthase. Comparison of the kinetic properties of the synthase samples dephosphorylated by alkaline phosphatase and by phosphoprotein phosphatase we find that the phosphorylation site resistant to hydrolysis by alkaline phosphatase affects both the binding of UDP-glucose and glucose-6-P to the synthase.
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PMID:Dephosphorylation of rabbit skeletal muscle glycogen synthase (phosphorylated by cyclic AMP-independent synthase kinase 1) by phosphatases. 625 66

Phosphorylase kinase from rabbit skeletal muscle inhibited the dephosphorylation of phosphorylase a by phosphoprotein phosphatase. Phosphorylation (activation) of phosphorylase kinase by cyclic AMP-dependent protein kinase greatly increased this inhibitory effect. Thus, phosphoprotein phosphatase is inhibited by phosphorylase kinase in a reversible manner (Gergely et al. (1976) Biochim. Biophys. Acta 429 809-816). In this paper the regulation by phosphorylase kinase at phosphoprotein phosphatase activity in different fractions of muscle extract and in the presence of various ligands has been investigated. The presence of phosphorylase kinase also affected the ligand control of phosphatase activity. Phosphorylase kinase almost cancelled the inhibitory effect of AMP but hardly influenced the activating effect of glucose, glucose 6-phosphate and caffeine. Calmodulin, glycogen and phosphorylase b (effectors of phosphorylase kinase) did not influence the inhibitory effect of phosphorylase kinase. Fractions of muscle extract also demonstrated the regulatory role of phosphorylase kinase. These fractions contained considerable amounts of phosphorylase kinase and phosphatase. Phosphatase activity was inhibited by phosphorylation reactions triggered by Mg++ and ATP. Heat-stable inhibitors were absent from these fractions, therefore the transient inhibition of phosphatase could be attributed to the phosphorylation of endogenous phosphorylase kinase. The introduction between phosphorylase kinase and phosphatase resulted in a loss of AMP sensitivity, i.e. AMP did not inhibit the activity of phosphatase in those fractions. Our results imply that the phosphorylation of phosphorylase kinase is equally important both in the formation of enzymatically active phosphorylase a and in the inhibition of dephosphorylation of phosphorylase a. The consequence of these two effects is the elevated level of phosphorylase a.
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PMID:Regulation by phosphorylase kinase of phosphoprotein phosphatase activity: simultaneous control of protein phosphorylation and dephosphorylation in skeletal muscle. 629 2

Phosphoprotein phosphatase was purified from swine kidney by chromatography on DEAE-Sephadex A-50, Sephacryl S-200 and Sepharose 4B columns containing covalently bound hexanediamine and polylysine. The enzyme was purified more than 20000-fold and the homogeneous preparation had a specific activity of 2.8 micromol per min per mg of protein with saturating concentrations of 32P-histone as the substrate. The phosphatase showed only a single protein band when examined by polyacrylamide gel electrophoresis and a single protein peak containing all of the enzymatic activity was observed during chromatography on Sephadex G-100 column. The molecular weight of the purified enzyme was determined to be 70000 +/- 5000 by exclusion chromatography on a calibrated Sephadex G-100 column. Similar values were obtained by sucrose density centrifugation, 70000 +/- 5000, and polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate, 70000 +/- 3000. The purified enzyme catalyzed the dephosphorylation of the phosphorylated forms of glycogen synthase, phosphorylase, histone, phosphofructokinase, Type II regulatory subunit of cyclic AMP-dependent protein kinase, casein and protamine. The apparent Km values for these substrates were 3.6 microM, 2.8 microM, 66 microM, 3.3 microM, 8.0 microM, 6.6 microM and 100 microM, respectively. The enzyme did not hydrolyze low molecular weight phosphate esters such as glucose 6-phosphate, glycerol phosphate, adenosine nucleotides and inorganic pyrophosphate. The activity of the enzyme towards a phosphorylated protein substrate was competitively inhibited by the addition of other substrates. These results suggest that swine kidney contains a phosphoprotein phosphatase with a rather broad substrate specificity for a number of endogenous and exogenous phosphoprotein substrates.
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PMID:Purification and properties of swine kidney phosphoprotein phosphatase. 630 89

A phosphoprotein phosphatase has been purified from rat liver cytosol. The purification involved chromatography on DEAE-cellulose. Sephacryl S-200, fast protein liquid chromatography (FPLC) and sucrose density gradient centrifugation. It resulted in an almost homogeneous enzyme with a relative molecular mass, Mr, of 90 000 by gel filtration and sucrose gradient centrifugation and Mr = 44 500 by sodium dodecyl sulfate/polyacrylamide gel electrophoresis (SDS-PAGE). Therefore it seems to be a dimeric enzyme. This protein phosphatase (termed PFK-phosphatase) is completely dependent on Mg2+, which can be replaced partly by Mn2+. It can be eluted from DEAE-cellulose with 120 mM NaCl, is not affected by Ca2+, 100 microM trifluoperazine or the heat-stable inhibitor-2. Inhibition occurs with phosphate, ammonium sulfate and fluoride. PFK-phosphatase dephosphorylates preferentially the alpha subunit of phosphorylase kinase (alpha/beta dephosphorylation ratio 5-10). Phosphorylase a, mixed histone and casein do not serve as substrates. The enzyme dephosphorylates effectively the key enzymes of glucose metabolism 6-phosphofructo-1-kinase, fructose 1,6-bisphosphatase, pyruvate kinase and 6-phosphofructo-2-kinase. Using this protein phosphatase and the catalytic subunit of cAMP-dependent protein kinase, a complete phosphorylation, dephosphorylation and rephosphorylation cycle was possible with 6-phosphofructo-1-kinase as substrate.
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PMID:Purification and characterization of a protein phosphatase from rat liver acting on key enzymes of glucose metabolism. 632 87

Subtilisin BPN' hydrolyses a single peptide bond in phosphorylase a. The two proteolytic fragments are attached to each other by noncovalent bonds in solution as shown by gel filtration and ultracentrifugation studies. The subtilisin nicked phosphorylase a is inactive, however, still binds AMP and glucose as judged by equilibrium dialysis and fluorescence experiments. The modified enzyme can be dephosphorylated by protein phosphatase and AMP is an effective inhibitor of the dephosphorylation reaction. Glucose cannot cancel the AMP inhibition as well as cannot expel AMP from the nucleotide binding site. Thus a single nick in the polypeptide chain breaks the "communication" between the two ligand binding domains.
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PMID:Heterotropic interactions of AMP and glucose binding sites in phosphorylase a are destroyed by limited proteolysis. 634 98

Brief treatment of rat adipocytes with low concentration of trypsin activated both cell membrane and intracellular insulin-sensitive functions in marked contrast H2O2 (1), increase in pH, and oxidized glutathione (papers I and II). Glucose oxidation was activated maximally by trypsin in 30 s and preceded maximal activation of glycogen synthase, which occurred in 60s. Trypsin action to activate glycogen synthase was further enhanced by insulin. Mitochondrial pyruvate dehydrogenase was also rapidly activated by trypsin. With both insulin and trypsin action, mediator generation was directly demonstrated by glycogen synthase phosphoprotein phosphatase activation. Trypsin is thus the most insulin-like of these four agents studied since it acts by the formation of chemical mediator peptide(s) which are similar but not identical to those produced by insulin.
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PMID:Independent control of selected insulin-sensitive cell membrane and intracellular functions-the linkage of cell membrane and intracellular events controlled by insulin. III. The influence of trypsin on cell membrane hexose transport and on glycogen synthase and mitochondrial pyruvate dehydrogenase activation. 679 3

The recessive, nuclear gene mutation glc1, which causes glycogen deficiency in Saccharomyces cerevisiae, is highly pleiotropic. Studies of the inheritance of glc1 revealed two classes of phenotypic characteristics: I. Traits invariably associated with the mutant gene and II. Traits whose expressions require the presence of glc1 and one or more additional genes. Class I traits include glycogen deficiency and the loss of capacity to accumulate trehalose in nonproliferating conditions. Traits in the second class include a decreased rate of growth on ethanol medium, a deficiency in cytochrome a.a3 and an enhanced accumulation of pigment, probably a metalloporphyrin. Constructed strains containing both glc1 and the constitutive maltose fermentation gene MAL4c can accumulate trehalose but not glycogen during growth on glucose. However, accumulated trehalose is degraded when cells are exposed to nonproliferating conditions. It is proposed that the glc1 mutation affects a regulatory system, probably involving a protein kinase and/or protein phosphatase, which regulates glycogen synthase and trehalase. Independent regulation of trehalose synthesis by a system controlled by MAL4c is indicated.
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PMID:Regulation of energy metabolism in yeast. Inheritance of a pleiotropic mutation causing defects in metabolism of energy reserves, ethanol utilization and formation of cytochrome a.a3. 704 82

FK506 (tacrolimus) is a strong immunosuppressant: it has been approved as a drug for liver transplantation in Japan, the United States, and the United Kingdom. One of its main adverse effects is hyperglycemia. Thus, in this study, we investigated the mechanism and the reversibility of the hyperglycemia caused by FK506. FK506 did not affect the glucose uptake by insulin into rat strio-muscle cell line, but suppressed insulin production in rat insulinoma cells. Two-week oral administration of FK506 at 10 mg/kg/day suppressed insulin production time-dependently at the transcriptional step in pancreatic beta-cells, while glucagon content in pancreatic alpha-cells was not affected. When FK506 administration was stopped in these rats, insulin mRNA transcription and insulin production returned to normal. This recovery indicates that the adverse effect of FK506 on the pancreas is reversible. A high content of FK506 binding protein-12 (FKBP-12) in the pancreatic beta-cells was confirmed by immunostaining with anti-human FKBP-12 mAb, but the content was less in the pancreatic alpha-cells and almost negligible in the acinar cells. In contrast, a high content of calcineurin in the pancreatic alpha-cells was confirmed by using anti-calcineurin polyclonal antibody, but this content was less in the pancreatic beta-cells and not found in the acinar cells. Thus, as in the case with NF-AT in T cells, these findings point to the reduction of unidentified nuclear factors for insulin mRNA transcription caused by the binding of FK506 to FKBP-12 and a subsequent inhibition of calcineurin in the beta-cells.
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PMID:Transcriptional inhibition of insulin by FK506 and possible involvement of FK506 binding protein-12 in pancreatic beta-cell. 753 60

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