Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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 previous study demonstrated that calcineurin preparations contain variable amounts of endogenous phosphate. This observation suggests that calcineurin may be regulated by protein phosphorylation. In this study we have used calcineurin as a potential substrate for eight different protein kinases and significant phosphorylation was observed only with glycogen synthase (casein) kinase-1 (CK-1). Analysis by sodium dodecyl sulfate-polyacrylamide gel electrophoresis revealed that only subunit A of calcineurin was phosphorylated. The incorporation of 32P into calcineurin catalyzed by CK-1 ranged from 0.4 to 1.5 mol, depending on the preparation of the substrate used. Peptide mapping revealed that two major sites on calcineurin were phosphorylated. No change in calcineurin activity was observed as a result of phosphorylation. The results of this study suggest that CK-1 may be responsible for phosphorylating calcineurin in vivo.
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PMID:Phosphorylation of calcineurin by glycogen synthase (casein) kinase-1. 283 10

Of three casein phosphatases isolated from the cytosol of human cord blood erythrocytes two were cobalt-dependent, E2 and E3. In the presence of CoCl2, E2 activity was the most prominent. In addition to casein, E2 dephosphorylated phosvitin and p-nitrophenyl phosphate (p-NPP) with pH optima at 6.8-7.2 for proteins and 9.0 for p-NPP. The native enzyme had a molecular weight of 104,000 daltons after AcA-44 Ultrogel filtration. According to SDS/PAGE it consisted of two subunits, 78,000 and 15,000 daltons. The 104,000-dalton form exhibited Michaelis-Menten kinetics and had the greatest affinity for casein between protein substrates tested. Ethanol denaturated the enzyme by 80%. Optimal activation of E2 phosphatase was achieved with 5 mmol/l CoCl2 which did not affect the catalytic properties of the enzyme but did affect the rate of 'E-S' complex formation. Inorganic pyrophosphate was not inhibitory for the 104,000-dalton enzyme. Judging by all these properties the natural substrate for E2 casein phosphatase could be P-pyruvate kinase.
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PMID:Cobalt-dependent protein phosphatases from human cord blood erythrocytes. II. Further characterization of E2 casein phosphatase. 283 85

Previous studies have established that casein kinase-2 (CK-2) is stimulated by polyamines. In this study it is shown that glycogen synthase (casein) kinase-1 (CK-1) can be activated similarly. Using casein as the substrate, bovine kidney CK-1 was stimulated 7-, 2-, and 0.5-fold by spermine, spermidine, and putrescine, respectively. Half-maximal activation of CK-1 by these polyamines was observed at 0.25, 0.70, and 0.50 mM, respectively. CK-1 was optimally activated by spermine at low ionic strength and low Mg2+ concentrations (1-3 mM). Using phosvitin as the substrate, CK-1 was stimulated at low concentrations (0-0.8 mM) and inhibited at higher concentrations of spermine. By contrast CK-2 was inhibited at all concentrations of spermine when phosvitin was used as substrate. Using calcineurin (not a substrate for CK-2) as a substrate, CK-1 from bovine kidney or from three rat tissues (liver, kidney, and testis) was stimulated greater than 2-fold by spermine. It is further shown that heparin inhibits CK-1 and this inhibition can be reversed by spermine. The Vmax of CK-1 for both casein and ATP is increased by spermine while the Km remains unchanged by the polyamine. These studies indicate that CK-1, like CK-2, is a heparin-inhibited and polyamine-activated protein kinase. The results also suggest that CK-1 may be activated by spermine in vivo.
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PMID:Polyamines stimulate the activity of glycogen synthase (casein) kinase-1 from bovine kidney and different rat tissues. 284 47

The protein phosphatases in rat liver cytosol, active on rat liver acetyl-CoA carboxylase (ACC) phosphorylated by casein kinase I, casein kinase II and the cAMP-dependent protein kinase, have been partially purified by anion-exchange and gel filtration chromatography. The major phosphatase activities against all three substrates copurify through fractionation and appear to be identical to protein phosphatases 2A1 and 2A2. No unique protein phosphatase active on 32P-ACC phosphorylated by the casein kinases was identified.
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PMID:Protein phosphatases active on acetyl-CoA carboxylase phosphorylated by casein kinase I, casein kinase II and the cAMP-dependent protein kinase. 286 68

Phosphorylation of soluble proteins in rat mammary acinar cells was investigated. When phosphorylation proceeded in intact cells, in the presence of [32P]Pi, the major non-casein phosphoproteins, including acetyl-CoA carboxylase, were unresponsive to incubation conditions that caused major increases in the intracellular concentration of cyclic AMP. The overall 32P specific radioactivity (c.p.m./microgram of protein) of acetyl-CoA carboxylase, assessed after affinity purification of the enzyme with avidin-Sepharose, was unchanged by incubation under such conditions. Furthermore, the distribution of 32P among tryptic phosphopeptides of the enzyme, resolved by reversed-phase h.p.l.c., was not altered by cyclic AMP-increasing treatments of the acinar cells. When cytosol fractions were incubated with [gamma-32P]ATP, some phosphoproteins responded to the addition of micromolar concentrations of dibutyryl cyclic AMP or cyclic AMP by undergoing an enhancement of phosphate incorporation. In these experiments in vitro, protein phosphatase activity did not make a major contribution to the net phosphorylation of individual phosphoproteins, and acetyl-CoA carboxylase was not prominent among the phosphoproteins identified after short (less than 1 min) incubations of cytosols with [gamma-32P]ATP. The resistance of protein phosphorylation to variations in the cyclic AMP concentration in intact mammary epithelial cells, demonstrated by this work, is one of several mechanisms that ensure the pleiotropic refractoriness of those cells to agents which normally cause a stimulation of adenylate cyclase activity in hormone-sensitive cells.
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PMID:Protein phosphorylation in rat mammary acini and in cytosol preparations in vitro. Phosphorylation of acetyl-CoA carboxylase is unaffected by cyclic AMP. 288 90

The meiotic maturation of Xenopus laevis oocytes is induced in vitro by progesterone which interacts at the cell surface level. A cell-free membrane preparation (P-10,000) incorporated 32P from [gamma-32P]ATP, mostly into two proteins, Mr approximately 56,000 and approximately 48,000 (as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis). Progesterone, added in vitro, specifically inhibited the phosphorylation of the Mr approximately 48,000 protein (named p48). Half-maximal inhibition of p48 phosphorylation occurred with progesterone approximately 8 microM, in good correlation with hormone concentration inducing oocyte maturation. The effect was not due to stimulation of protein phosphatase activity. The potent maturation inducers testosterone and deoxycorticosterone also inhibited p48 phosphorylation, whereas biologically inactive steroids or cholesterol did not. p48 phosphorylation was not affected by cAMP, cGMP, polyamines, calmodulin, and phospholipids + diolein. EGTA had a stimulatory effect which was reversed by added Ca2+. The inhibitory effects of progesterone and Ca2+ were additive, suggesting two distinct sites of action. Phospho-p48 was not detected in yolk platelets, microsomes, and cytosol of oocytes. Contrary to p48 itself, the p48 kinase activity was loosely associated with P-10,000. Progesterone inhibited p48 phosphorylation produced by either cytosol or exogenous pure catalytic subunit of cAMP-dependent protein kinase. Conversely, phosphorylation of casein and histones by protein kinase activity present in P-10,000 was not modified by progesterone. It is then suggested that progesterone regulates p48 phosphorylation by affecting the protein substrate in the membrane, rather than by inhibiting the protein kinase enzyme itself. The data demonstrate a direct effect (not mediated by change of protein synthesis) of steroids on p48 phosphorylation in the plasma membrane, and they suggest that this protein could be implicated in the initial action of progesterone on oocyte maturation.
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PMID:Progesterone-inhibited phosphorylation of an unique Mr 48,000 protein in the plasma membrane of Xenopus laevis oocytes. 298 68

A calmodulin-dependent protein phosphatase has been identified in human platelets by its cross-reactivity with an antibody developed against a bovine brain calmodulin-dependent protein phosphatase and by its calmodulin-stimulated dephosphorylation of 32P-labeled substrates. The platelet enzyme was partially purified to separate it from calmodulin and calmodulin-independent phosphatases. The partially purified enzyme was stimulated by calmodulin, requiring 15 nM calmodulin for half-maximal activation. Calmodulin increased the Vmax of the phosphatase, with no significant effect on its Km. The enzyme was stimulated irreversibly and made calmodulin-independent by limited proteolysis. The optimal pH for the phosphatase was 7.5. After partial purification, phosphatase activity was significantly increased in the presence of Mn2+ and Ca2+ over that observed in the presence of Ca2+ alone. The enzyme effectively dephosphorylated casein, histone, protamine, and platelet actin. The holophosphatase was estimated to have a molecular weight of 76,900 as determined by sedimentation on sucrose gradients. Immunoblotting techniques using an antibody against the brain phosphatase suggests that the enzyme consists of 2 subunits of 60,000 and 16,500 daltons; the 60,000-dalton subunit co-migrates in sodium dodecyl sulfate-polyacrylamide gel electrophoresis with a 60,000-dalton calmodulin-binding protein in the platelet suggesting that it is the calmodulin-binding subunit of the enzyme. The identification of a calmodulin-dependent protein phosphatase in human platelets suggests a role for Ca2+-dependent dephosphorylation in platelet activation.
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PMID:Characterization of a calmodulin-dependent protein phosphatase from human platelets. 298 67

The phosphotyrosyl [Tyr(P)]-immunoglobulin G (IgG) phosphatase activity in the extracts of bovine heart, bovine brain, human kidney, and rabbit liver can be separated by DEAE-cellulose at neutral pH into two fractions. The unbound fraction exhibits a higher activity at acidic than neutral pH while the reverse is true for the bound fraction. Of all tissues examined, the Tyr(P)-IgG phosphatase activity in the unbound fraction measured at pH 5.0 is higher than that in the bound fraction measured at pH 7.2. The acid Tyr(P)-IgG phosphatase activity has been extensively purified from bovine heart. It copurified with an acid phosphatase activity (p-nitrophenyl phosphate (PNPP) as a substrate) throughout the purification procedure. These two activities coelute from various ion-exchange and gel filtration chromatographies and comigrate on polyacrylamide gel electrophoresis, indicating that they reside on the same protein molecule. The phosphatase has a Mr = 15,000 by gel filtration and exhibits an optimum between pH 5.0 and 6.0 when either Tyr(P)-IgG-casein or PNPP is the substrate. It is highly specific for Tyr(P)-protein with little activities toward phosphoseryl [Ser(P)]- or phosphothreonyl [Thr(P)]-protein. The enzyme activities toward Tyr(P)-casein and PNPP are strongly inhibited by microM molybdate and vanadate but insensitive to inhibition by L(+)-tartrate, NaF, or Zn2+. The molecular and catalytic properties of the acid Tyr(P)-protein phosphatase purified from bovine heart are very similar to those of the low-molecular-weight acid phosphatases of Mr = 14,000 previously identified and purified from the cytosolic fraction of human liver, placenta, and other animal tissues.
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PMID:A major phosphotyrosyl-protein phosphatase from bovine heart is associated with a low-molecular-weight acid phosphatase. 299 Mar 41

Calmodulin-dependent protein phosphatase isolated from bovine brain consists of a catalytic subunit A (Mr = 60,000) and a regulatory subunit B (Mr = 19,000) present in equal molar ratios. The two subunits were dissociated by gel filtration in 6 M urea and reconstituted to investigate the role of calmodulin and subunit B in regulating the phosphatase activity of subunit A. The activity of subunit A was stimulated 2-fold by calmodulin, 13-fold by subunit B, and 21-fold by both, indicating that the effects of both were synergistic. Maximum stimulation by calmodulin was observed at a calmodulin to subunit A molar ratio of 2:1 in the presence or absence of subunit B, whereas that by subunit B was observed at a B to A molar ratio of 3:1 in the presence or absence of calmodulin. Calmodulin and subunit B increased the Vmax of subunit A 2- and 5-fold, respectively, but had little effect on the Km for casein. The specific activity of the phosphatase reconstituted from subunits A and B reached 86% that of the native enzyme, whereas that of the holoenzyme reached 90%. Subunit B, even though similar to calmodulin in many respects, did not stimulate the activity of native phosphatase, suggesting that it cannot substitute for calmodulin. Limited trypsinization of subunit A increased its catalytic activity to the level observed with calmodulin; and this activity was further stimulated by subunit B but not by calmodulin. These results indicate that subunit A of phosphatase contains one catalytic domain and two distinct regulatory domains, one for calmodulin, and another for subunit B, that these two proteins do not substitute for one another and that they stimulate subunit A synergistically.
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PMID:Bovine brain calmodulin-dependent protein phosphatase. Regulation of subunit A activity by calmodulin and subunit B. 299

Ca2+-activated protein phosphatase activity was demonstrated in mouse pancreatic acinar cytosol with alpha-casein and skeletal-muscle phosphorylase kinase as substrates. This phosphatase activity preferentially dephosphorylated the alpha subunit of phosphorylase kinase. After DEAE-cellulose chromatography, the Ca2+-activated phosphatase activity became dependent on exogenous calmodulin for maximal activity. Half-maximal activation was achieved at 0.5 +/- 0.1 microM-Ca2+. Trifluoperazine completely inhibited Ca2+-activated phosphatase activity, with half-maximal inhibition occurring at 8.5 +/- 0.6 microM. Mn2+, but not Mg2+, at 1 mM concentration could substitute for Ca2+ in eliciting full enzyme activation. The apparent Mr of the phosphatase as determined by Sephadex G-150 chromatography was 93000 +/- 1000. Submitting active fractions obtained after Sephadex chromatography to calmodulin affinity chromatography resulted in the resolution of a major protein of Mr 55500 +/- 300. In conclusion, Ca2+-activated protein phosphatase activity has been identified in exocrine pancreas and has several features in common with Ca2+-activated calmodulin-dependent protein phosphatases previously isolated from brain and skeletal muscle. It is possible that this Ca2+-activated phosphatase may utilize as substrates certain acinar-cell phosphoproteins previously shown to undergo dephosphorylation in response to Ca2+-mediated secretagogues.
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PMID:Characterization of Ca2+-activated protein phosphatase activity in exocrine pancreas. 299 47


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