EC:3.1.3.16 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

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

The effect of thrombin on the phosphorylating activity of platelet membranes was compared to that of trypsin. Preincubation of non-32P phosphorylated platelet membranes with or without either of these two enzymes resulted in a considerable loss of membrane protein kinase activity which was most severe when trypsin was used. Protein kinase activity and endogenous protein acceptors decreased in parallel. 32P-phosphorylated membranes showed a slow but progressive loss of label which was accelerated by trypsin. Thrombin under these conditions prevented the loss of 32P-phosphate. These results are interpreted to indicate a thrombin-induced destruction of a phosphoprotein phosphatase. The protein kinase activity of phosphorylated platelet membranes using endogenous or exogenous protein substrates showed a significant reduction compared to non-phosphorylated membranes suggesting a deactivation of protein kinase by phosphorylation of platelet membranes. Neither thrombin nor trypsin caused a qualitative change in the membrane polypeptides accepting 32P-phosphate but resulted in quantitative alterations of their ability to become phosphorylated.
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PMID:Effect of thrombin on phosphorylation of platelet membrane proteins. 98 70

The immunosuppressants cyclosporine and FK506 (tacrolimus) are extremely potent inhibitors of T-lymphocyte activation. Recent studies have shown that these agents are actually prodrugs that become active only when bound to specific members of the cyclophilin or FK506 binding protein receptor gene families. The cyclosporine-cyclophilin or FK506-FK506 binding protein receptor complexes interact with a key component of the T-cell antigen receptor signal transduction pathway, the calcium-calmodulin-dependent phosphoprotein phosphatase calcineurin. The drug-receptor complexes inhibit the phosphatase activity of calcineurin and thereby prevent transcriptional activation of the interleukin-2 gene.
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PMID:Recent advances in the mechanism of action of cyclosporine and FK506. 128 80

Canine cardiac sarcoplasmic reticulum vesicles contain intrinsic protein phosphatase activity, which can dephosphorylate phospholamban and regulate calcium transport. This phosphatase has been suggested to be a mixture of both type 1 and type 2 enzymes (E. G. Kranias and J. Di Salvo, 1986, J. Biol. Chem. 261, 10,029-10,032). In the present study the sarcoplasmic reticulum phosphatase activity was solubilized with n-octyl-beta-D-glucopyranoside and purified by sequential chromatography on DEAE-Sephacel, polylysine-agarose, heparin-agarose, and DEAE-Sephadex. A single peak of phosphatase activity was eluted from each column and it was coincident for both phospholamban and phosphorylase a, used as substrates. The partially purified phosphatase could dephosphorylate the sites on phospholamban phosphorylated by either cAMP-dependent or calcium-calmodulin-dependent protein kinase(s). Enzymatic activity was inhibited by inhibitor-2 and by okadaic acid (I50 = 10-20 nM), using either phosphorylase a or phospholamban as substrates. The sensitivity of the phosphatase to inhibitor-2 or okadaic acid was similar for the two sites on phospholamban, phosphorylated by the cAMP-dependent and the calcium-calmodulin-dependent protein kinases. Phospholamban phosphatase activity was enhanced (40%) by Mg2+ or Mn2+ (3 mM) while Ca2+ (0.1-10 microM) had no effect. These characteristics suggest that the phosphatase associated with cardiac sarcoplasmic reticulum is a type 1 enzyme, and this activity may participate in the regulation of Ca2+ transport through dephosphorylation of phospholamban in cardiac muscle.
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PMID:The phospholamban phosphatase associated with cardiac sarcoplasmic reticulum is a type 1 enzyme. 130 82

Biochemical properties of neuronal protein phosphatases from Aplysia californica were characterized. Dephosphorylation of phosphorylase alpha by extracts of abdominal ganglia and clusters of sensory neurons from pleural ganglia was demonstrated. Type-1 protein phosphatase (PrP-1) was identified in these extracts by the dephosphorylation of the beta-subunit of phosphorylase kinase and its inhibition by the protein, inhibitor-2. Type-2A protein phosphatase (PrP-2A) was demonstrated by the dephosphorylation of the alpha-subunit of phosphorylase kinase, which was insensitive to inhibitor-2. As in vertebrate tissues, only four enzymes, PrP-1 (47%), PrP-2A (42%), PrP-2B (11%), and PrP-2C (less than 1%), accounted for all the cellular protein phosphatase activity dephosphorylating phosphorylase kinase. Aplysia PrP-1 and PrP-2A were potently inhibited by okadaic acid, with PrP-1 being approximately 20-fold more sensitive than PrP-2A. By comparison, purified PrP-2A from rabbit skeletal muscle was 15- to 20-fold more sensitive to okadaic acid than PrP-1 from the same source. Only PrP-1 was associated with the particulate fractions from Aplysia neurons, whereas PrP-1 and PrP-2A, -2B, and -2C were all present in the cytosol. Extraction of the particulate PrP-1 decreased its sensitivity to okadaic acid by sixfold, suggesting that cellular factor(s) affect its sensitivity to this inhibitor. In most respects, protein phosphatases from Aplysia neurons resemble their mammalian counterparts, and their biochemical characterization sets the stage for examining the role of these enzymes in neuronal plasticity, and in learning and memory.
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PMID:Characterization of neuronal protein phosphatases in Aplysia californica. 131 Jul 28

Elevated dosage of the GAC1 gene from the yeast Saccharomyces cerevisiae causes hyperaccumulation of glycogen whereas a gene disruption of GAC1 results in reduced glycogen levels. Glycogen synthase is almost entirely in the active, glucose 6-phosphate-independent, form in cells with increased gene dosage of GAC1 whereas the enzyme is mostly in the inactive form in strains lacking GAC1. GAC1 encodes an 88 kDa protein that is similar to the regulatory subunit (RG1) of phosphoprotein phosphatase type 1 (PP-1) from skeletal muscle that targets PP-1 to glycogen particles. Taken together, these results suggest that GAC1 encodes a regulatory subunit of PP-1. As previously shown for glycogen phosphorylase (GPH1), GAC1 RNA accumulates concomitantly with the appearance of glycogen. A strain with a mutation in the regulatory subunit of the cAMP-dependent protein kinase (bcy1) fails to accumulate GPH1 and GAC1 RNA. These results point to coordinate regulation of enzymes involved in glycogen metabolism at the level of RNA accumulation and indicate that at least part of this control is exerted by the RAS-cAMP pathway.
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PMID:GAC1 may encode a regulatory subunit for protein phosphatase type 1 in Saccharomyces cerevisiae. 131 Sep 38

The phosphorylation of endogenous proteins was investigated in subcellular fractions prepared from isolated rabbit parietal cells incubated with either cimetidine (unstimulated) or a combination of histamine and forskolin (maximally stimulated). Phosphorylation of endogenous proteins in subfractions was then assessed in a post hoc assay using [gamma-32P]ATP as a phosphate donor in vitro. The Mg(2+)-dependent incorporation of [32P]phosphate into a 52-kDa protein (pp52M) was observed in the 4,000 g membrane fraction from stimulated but not unstimulated cells. The pp52M protein was identified as the type II regulatory subunit of adenosine 3',5'-cyclic monophosphate (cAMP)-dependent protein kinase (RII) by isoelectric focusing, comigration with cAMP-binding proteins, and immunoprecipitation. Incorporation of [32P]phosphate into RII in the in vitro assay in the presence of Zn2+ was apparent in the 4,000 g membrane from stimulated but not unstimulated cells. The results thus suggested that, on stimulation, RII in membrane was dephosphorylated. Incorporation of [32P]phosphate into membrane-associated RII was completely abolished in the presence of 10 microM cAMP. The decrease in RII phosphorylation in membrane from stimulated cells assayed in the presence of cAMP was due to a phosphoprotein phosphatase activity that was completely inhibited by okadaic acid (1 microM). The results indicate that stimulation of parietal cells with histamine and forskolin results in the dephosphorylation of membrane bound RII by a protein phosphatase that is also membrane associated. Furthermore, okadaic acid inhibited histamine-stimulated accumulation of [14C]aminopyrine into isolated parietal cells without altering stimulated increases in cAMP. Thus protein phosphatase may be a significant regulator of parietal cell function.
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PMID:Dephosphorylation of cAMP-dependent protein kinase regulatory subunit in stimulated parietal cells. 131

Proglycosyn, a phenylacyl imidazolium compound that lowers blood glucose levels, was demonstrated previously to promote hepatic glycogen synthesis, stabilize hepatic glycogen stores, activate glycogen synthase, inactivate glycogen phosphorylase, and inhibit glycolysis. In the present study proglycosyn was found to inhibit fatty acid synthesis, stimulate fatty acid oxidation, and lower fructose 2,6-bisphosphate levels, but to have no significant effects on cell swelling and the levels of cAMP in hepatocytes prepared from fed rats. Verapamil and atropine blocked the effects of proglycosyn on glycogen metabolism, but these compounds inhibit proglycosyn accumulation by hepatocytes. Proglycosyn stimulated phosphoprotein phosphatase activity in postmitochondrial extracts, as measured by dephosphorylation of phosphorylase a and glycogen synthase D, but this action required a very high concentration of the compound, making it unlikely to be the actual mechanism involved. It is proposed that a metabolite of proglycosyn is responsible for its metabolic effects.
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PMID:Metabolic effects of proglycosyn. 131 46

Simian virus 40 (SV40) large tumor antigen (T) is an oncoprotein whose biological and biochemical functions appear to be modulated by phosphorylation. Recently, SV40 DNA replication in vitro has been shown to be activated by dephosphorylation involving the activity of a serine/threonine phosphoprotein phosphatase belonging to the type 2A class (PP2A) [Virshup, D.M., Kauffman, M.G. & Kelly, T.J. (1989) EMBO J., 8, 3891-3898]. To address the question of how specificity of PP2A activity towards T is regulated, an in vitro assay to study the process of T dephosphorylation was developed. Unlabeled extracts from cells enriched for various stages of the cell cycle were incubated with 32P-labeled, immunocomplexed T. Extracts from a population of cells enriched for S phase demonstrated a selective ability to dephosphorylate this labeled protein when compared with extracts prepared from G1- and M-phase cells. The time course of release from growth arrest demonstrated that this T-specific phosphatase activity occurred at the onset of host-cell DNA synthesis. In contrast, when using 32P-labeled phosphorylase a as the substrate, phosphatase activity appeared to be present throughout the cell cycle. The data presented here are consistent with the notion that PP2A activity towards T is regulated in a cell cycle-dependent manner.
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PMID:Selective ability of S-phase cell extracts to dephosphorylate SV40 large T antigen in vitro. 131 15

The protein B-50 is dephosphorylated in rat cortical synaptic plasma membranes (SPM) by protein phosphatase type 1 and 2A (PP-1 and PP-2A)-like activities. The present studies further demonstrate that B-50 is dephosphorylated not only by a spontaneously active PP-1-like enzyme, but also by a latent form after pretreatment of SPM with 0.2 mM cobalt/20 micrograms of trypsin/ml. The activity revealed by cobalt/trypsin was inhibited by inhibitor-2 and by high concentrations (microM) of okadaic acid, identifying it as a latent form of PP-1. In the presence of inhibitor-2 to block PP-1, histone H1 (16-64 micrograms/ml) and spermine (2 mM) increased B-50 dephosphorylation. This sensitivity to polycations and the reversal of their effects on B-50 dephosphorylation by 2 nM okadaic acid are indicative of PP-2A-like activity. PP-1- and PP-2A-like activities from SPM were further displayed by using exogenous phosphorylase alpha and histone H1 as substrates. Both PP-1 and PP-2A in rat SPM were immunologically identified with monospecific antibodies against the C-termini of catalytic subunits of rabbit skeletal muscle PP-1 and PP-2A. Okadaic acid-induced alteration of B-50 phosphorylation, consistent with inhibition of protein phosphatase activity, was demonstrated in rat cortical synaptosomes after immunoprecipitation with affinity-purified anti-B-50 immunoglobulin G. These results provide further evidence that SPM-bound PP-1 and PP-2A-like enzymes that share considerable similarities with their cytosolic counterparts may act as physiologically important phosphatases for B-50.
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PMID:Protein phosphatases 1 and 2A dephosphorylate B-50 in presynaptic plasma membranes from rat brain. 131 70

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