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)

The activity of rat liver 3-hydroxy-3-methylglutaryl-coenzyme A reductase [HMG-CoA reductase; mevalonate:NADP(+) oxidoreductase (CoA-acylating), EC 1.1.1.34] can be modulated in vitro by a phosphorylation-dephosphorylation reaction sequence. A microsomal reductase kinase catalyzes the phosphorylation of HMG-CoA reductase and histones. Histone phosphorylation was enhanced 2- to 3-fold by cyclic AMP. Reductase kinase exists in interconvertible active and inactive forms. Incubation of reductase kinase with phosphoprotein phosphatase resulted in a time-dependent decrease in the ability of reductase kinase to catalyze the phosphorylation of histones and to inactivate HMG-CoA reductase. Incubation of phosphoprotein phosphatase-inactivated reductase kinase with [gamma-(32)P]ATP plus Mg(2+) and a partially purified protein kinase designated reductase kinase kinase resulted in parallel increases in protein-bound (32)P radioactivity and ability to inactivate HMG-CoA reductase. Incubation of (32)P-labeled reductase kinase with phosphoprotein phosphatase resulted in a time-dependent loss of protein-bound (32)P radioactivity and a decrease in the ability to inactivate HMG-CoA reductase. Polyacrylamide gel electrophoresis of purified reductase kinase incubated with reductase kinase kinase and [gamma-(32)P]ATP plus Mg(2+) revealed that the (32)P radioactivity and reductase kinase enzymic activity were located in a single electrophoretic position. Dephosphorylation of (32)P-labeled purified reductase kinase with phosphoprotein phosphatase was associated with significant loss of radioactivity and enzymic activity in the protein band ascribed to reductase kinase. These results provide evidence that the activity of reductase kinase, like HMG-CoA reductase, is modulated by a reversible phosphorylation-dephosphorylation reaction sequence.
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PMID:Characterization and regulation of reductase kinase, a protein kinase that modulates the enzymic activity of 3-hydroxy-3-methylglutaryl-coenzyme A reductase. 29 71

A physiologically and biochemically realistic model of the regulation of pyruvate dehydrogenase complex (PDH) was constructed for the perfused rat heart. It includes conversion between inactive (phospho) and active (dephospho) forms by a specific protein kinase (PDHK) and phosphoprotein phosphatase (PDHP). The activity of the tightly bound PDHK is influenced by synergistic activation/inhibition by acetyl CoA/CoASH and NADH/NAD. PDHK in this simulation was more sensitive to the fraction of ADP that was Mg2+-chelated than to the ATP-to-ADP ratio. Ca2+ stimulates binding of Mg2+-dependent PDHP to the complex; the bound enzyme was considered to be the active species. The fraction of PDH in the active form, rather than substrate and inhibitor levels, determines PDH activity under these conditions. This fraction depends on the present value and recent history of the difference between PDHK and PDHP activities. Both of these are active continuously and continuously control PDH.
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PMID:Computer simulation of metabolism in pyruvate-perfused rat heart. III. Pyruvate dehydrogenase. 47 88

CoA hydrolysis was studied by a homogenous phosphoprotein phosphatase (EC 3.1 3.16) preparation from bovine spleen nuclei at pH 5.8. Phosphoprotein phosphatase catalyzed hydrolysis of the CoA 3'-phosphoester bond to form dephospho-CoA and Pi. The Km value for phosphoprotein phosphatase with CoA as substrate was 3.7 mM, the specific activity - 0.26 mmol Pi.min-1.mg-1. Phosphoprotein phosphatase did not essentially catalyze the calcium pantothenate hydrolysis (not more than 2% as compared with the CoA hydrolysis rate).
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PMID:[Phosphoprotein phosphatase nonspecifically hydrolyzes CoA]. 284 29

Four phosphoprotein phosphatases, with the ability to act upon hydroxymethylglutaryl (HMG)-CoA reductase, phosphorylase, and glycogen synthase have been purified from rat liver cytosol through a process that involves DEAE-cellulose, aminohexyl-Sepharose-4B, and Bio-Gel A 1.5 m chromatographies. Protein phosphatase II (Mr 180,000) was the major enzyme (68%) with a very broad substrate specificity, showing similar activity toward the three substrates. Phosphatases I1 (Mr 180,000) and I3 (Mr 250,000) accounted for only 12 and 15% of the total activity, respectively, and they were also able to dephosphorylate the three substrates. In contrast, phosphatase I2 (Mr 200,000) showed only phosphorylase phosphatase activity with insignificant dephosphorylating capacity toward HMG-CoA reductase and glycogen synthase. Upon ethanol treatment at room temperature, the Mr of all phosphatases changed; protein phosphatases I2, I3, and II were brought to an Mr of 35,000, while phosphatase I1 was reduced to an Mr of 69,000. Glycogen synthase phosphatase activity was decreased in all four phosphatases. There was also a decrease in phosphatase I1 activity toward HMG-CoA reductase and phosphorylase as substrates. The HMG-CoA reductase phosphatase and phosphorylase phosphatase activities of phosphatases I2, I3, and II were increased after ethanol treatment. Each protein phosphatase showed a different optimum pH, which changed depending on the substrate. The four phosphatases increased their activity in the presence of Mn2+ and Mg2+. In general, Mn2+ was a better activator than Mg2+, and phosphatase I1 showed a stronger dependency on these cations than any other phosphatase. Phosphorylase was a competitive substrate in the HMG-CoA reductase phosphatase and glycogen synthase phosphatase reactions of protein phosphatases I1, I3, and II. HMG-CoA reductase was also able to compete with phosphorylase and glycogen synthase for phosphatase activity. Glycogen synthase phosphatase activity presented less inhibition in the low-Mr forms. A comparison has been made with other protein phosphatases previously reported in the literature.
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PMID:Modulation of rat liver hydroxymethylglutaryl-CoA reductase by protein phosphatases: purification of nonspecific hydroxymethylglutaryl-CoA reductase phosphatases. 397 May 34

We have investigated the comparative biochemistry of in vitro regulation of HMG-CoA reductase (EC 1.1.1.34) in microsomal preparations from the livers of nine vertebrates. In all instances, reductase activity was rapidly and profoundly decreased by addition of MgATP. Reductase activities were restored to near or above initial levels after removal of MgATP and incubation with a crude, low molecular weight phosphatase preparation from rat liver cytosol. Restoration of reductase activity was inhibited both by NaF and by pyrophosphate, known inhibitors of phosphoprotein phosphatase activity. Liver cytosol of species other than the rat exhibits reductase phosphatase activity. The converter enzymes that catalyze modulation of MG-CoA reductase activity (reductase kinase and reductase phosphatase) thus appear to be ubiquitous in vertebrate liver. Interconversion in vitro of active and inactive forms of reductase probably is general for vertebrate liver also. The majority of the reductase present in vertebrate liver may be present in a catalytically inactive or latent form in vivo. Under the experimental conditions used, the fraction present in the active form is, for a given species, quite constant. Species to species, from 20-45% of the reductase appears to be present in the active form.
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PMID:Regulation of vertebrate liver HMG-CoA reductase via reversible modulation of its catalytic activity. 624 8

The activity of 3-hydroxy-3-methylglutaryl coenzyme A reductase (HMG-CoA reductase) mevalonate: NADP oxidoreductase (CoA acylating; EC 1.1.1.34) in microsomes from early- and term-pregnancy placenta has been found to be 24 +/- 2 and 6 +/- 3 pmol/min per mg protein, respectively. Inactivation of the enzyme required the addition of ATP and Mg2+ and was dependent on the time of preincubation. Reactivation of the enzyme was also dependent on the incubation time and prevented by the presence of fluoride--a phosphoprotein phosphatase inhibitor. These data suggest that (despite a low activity) placental HMG-CoA reductase is covalently modulated via the phosphorylation-dephosphorylation system. The conversion of [14C]acetate and [3H]mevalonate into digitonin precipitable placental sterols indicates that the lower reductase activity in term, than in early, placental microsomes is accompanied by a less active conversion of [14C]acetate in this tissue.
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PMID:HMG-CoA reductase activity in the microsomal fraction from human placenta in early and term pregnancy. 647 32

Branched-chain alpha-keto acid dehydrogenase (BCKDH) phosphatase was purified about 8000-fold from extracts of bovine kidney mitochondria. The highly purified phosphatase exhibited a molecular weight of approximately 460,000, as estimated by gel-permeation chromatography. Another form of the phosphatase, with an apparent molecular weight of approximately 230,000, was also detected under conditions of high dilution. In contrast to pyruvate dehydrogenase phosphatase, BCKDH phosphatase was active in the absence of divalent cations. BCKDH phosphatase was inactive toward 32P-labeled phosphorylase a, but exhibited approximately 10% maximal activity with 32P-labeled pyruvate dehydrogenase complex. BCKDH phosphatase activity was inhibited by GTP, GDP, ATP, ADP, UTP, UDP, CTP, and CDP. Half-maximal inhibition occurred at about 60, 200, 200, 400, 100, 250, 250, and 400 microM, respectively. These inhibitions were reversed completely by 2 mM Mg2+. GTP was replaceable by guanosine 5'-(beta, gamma-imido)triphosphate. GMP, AMP, UMP, CMP, NAD, and NADH showed little effect, if any, on BCKDH phosphatase activity at concentrations up to 1 mM. Heparin showed half-maximal inhibition at 2 micrograms/ml. This inhibition was only partially (30%) reversed by 2 mM Mg2+. CoA and various acyl-CoA compounds exhibited half-maximal inhibition at 150-300 microM. These inhibitions were not reversed by 2 mM Mg2+. BCKDH phosphatase activity was stimulated 1.5- to 3-fold by protamine, poly(L-lysine), and poly(L-arginine) at 3.6 micrograms/ml.
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PMID:Purification and properties of branched-chain alpha-keto acid dehydrogenase phosphatase from bovine kidney. 658 97

Hydroxymethylglutaryl CoA reductase catalyzes the limiting step in cholesterol synthesis in liver and other tissues. Beginning in 1973 studies with subcellular systems established that microsomal reductase is inactivated with ATP(Mg) and reductase kinase, and restored to full activity with phospho-protein phosphatase. By contrast reductase kinase is inactivated with phosphatase and reactivated with a second protein kinase (reductase kinase kinase). This bicyclic system has now been confirmed in terms of homogeneous enzyme components and by direct reversible phosphorylation with [gamma 32P]ATP in several laboratories. Short-term endocrine control of reductase and reductase kinase has been demonstrated in intact rat hepatocytes. Preincubation of cells with glucagon brought about a fall in the expressed activity of reductase and a rise in reductase kinase consistent with net phosphorylation of both enzymes. Total reductase levels were also severely depressed after glucagon. Addition of insulin to suspensions of hepatocytes had the reverse effect on expressed activity of reductase (elevated) and reductase kinase (depressed). Insulin also prevented the decay in total reductase activity. Since both protein kinases identified in this system are cAMP-insensitive, it was possible that hormonal signaling is mediated through the protein phosphatase that acts on both reductase kinase and reductase. In recent studies we have shown that the rate of activation of endogenous reductase in hepatocyte extracts (microsomes plus cytosol) is responsive to hormonal modulation. Pretreatment of hepatocytes with insulin increases apparent reductase phosphatase activity in extracts while glucagon diminishes the rate of reductase activation. HMG CoA is converted to mevalonate by the reductase enzyme. In hepatocytes mevalonate is rapidly converted to cholesterol and to a variety of isoprene derivatives. Expressed reductase activity falls precipitously when hepatocytes are incubated with mevalonate (added in the form of mevalono-lactone). As in the case with glucagon pretreatment reductase phosphatase is rapidly diminished. (Mevalonate itself is not inhibitory to reductase or reductase phosphatase activity in subcellular systems.) It is probable that a product of mevalonate metabolism generated in intact cells may act as a reductase phosphatase inhibitor. Among these added inorganic pyrophosphate inhibited reductase phosphatase at low concentrations.
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PMID:Short-term regulation of hydroxymethylglutaryl coenzyme A reductase by reversible phosphorylation: modulation of reductase phosphatase in rat hepatocytes. 705 70

Immunotitrations of rat liver hydroxymethylglutaryl-CoA (HOMeGlt-CoA) reductase activity were performed before and after short-term changes in the nutritional or hormonal state of the animals. Changes in enzyme activity (increase or decrease) within 1 h following cholesterol feeding or glucagon or mevalonolactone administration to normal rats, or insulin administration to diabetic rats were accompanied by no change in the specific activity of the enzyme, as determined from the quantity of enzyme activity inactivated by a fixed quantity of antibody. These results support the conclusion that the loss in enzyme activity was due to conversion of the enzyme to immuno-unreactive products. In agreement with this conclusion the enzyme activity lost after these short-term physiological changes was not restorable by phosphoprotein phosphatase action. On the other hand, incubation of rat liver microsomes with ATP and Mg2+ decreased the specific activity of HOMeGlt-CoA reductase about tenfold, as determined by immunotitration. The low specific activity produced under these conditions was increased by phosphatase action to nearly the original level. The above evidence suggests that the changes in HOMeGlt-CoA reductase activity that resulted from short-term physiological changes in hormonal or nutritional states of an animal were brought about by a change in the quantity of enzyme, and not by reversible phosphorylation of pre-existing enzyme.
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PMID:Regulation of short-term changes in hepatic beta-hydroxy-beta-methylglutaryl-CoA reductase activity. 711 48

Pheromone biosynthesis activating neuropeptide (PBAN) regulates sex pheromone production in the pheromone glands of many species of female moths. In order to probe the biochemical steps as well as underlying mechanisms regulated by PBAN, we have tested the effect of chemicals on sex pheromone production by using an in vitro assay. Among the chemicals we tested here, compactin, a specific 3-hydroxy-3-methylglutaryl coenzyme A (HMG CoA) reductase inhibitor, clearly inhibited the pheromone biosynthesis in the silkworm, Bombyx mori, and the common cutworm, Spodoptera litura. Since the activation of HMG CoA reductase occurs by dephosphorylation mediated by a specific phosphatase and the biochemical step regulated by PBAN in bombykol biosynthesis is similar to the one catalyzed by HMG-CoA reductase in cholesterol biosynthesis, the present results support the idea that phosphoprotein phosphatase has a significant role to regulate bombykol production in the intracellular transduction of PBAN action in B. mori.
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PMID:Intracellular signal transduction of PBAN action in lepidopteran insects: inhibition of sex pheromone production by compactin, an HMG CoA reductase inhibitor. 748 Aug 81

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