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

Guanylate cyclase is dephosphorylated in response to the interaction of egg peptides with a spermatozoan surface receptor (Suzuki, N., Shimomura, H., Radany, E. W., Ramarao, C. S., Ward, G. E., Bentley, J. K., and Garbers, D. L. (1984) J. Biol. Chem. 259, 14874-14879). Here, the phosphorylated form of guanylate cyclase was purified to apparent homogeneity from detergent-solubilized spermatozoan membranes by the use of GTP-agarose, DEAE-Sephacel, and concanavalin A-Sepharose chromatography. To prevent dephosphorylation of the enzyme during purification, glycerol (35%) was required in all buffers. Following purification, a single protein-staining band of Mr 160,000 was obtained on sodium dodecyl sulfate-polyacrylamide gels. The final specific activity of the purified enzyme was 83 mumol of cyclic GMP formed/min/mg of protein at 30 degrees C, an activity 5-fold higher than that observed with the purified, dephosphorylated form of guanylate cyclase. A preparation containing protein phosphatase from spermatozoa, or highly purified alkaline phosphatase (from Escherichia coli), catalyzed the dephosphorylation of the enzyme; this resulted in a subsequent decrease in guanylate cyclase activity and a shift in the Mr from 160,000 to 150,000. The phosphate content of the high Mr form of the enzyme was 14.6 mol/mol protein whereas the phosphate content of the low Mr form was 1.6 mol/mol protein. All phosphate was localized on serine residues. The Mr 160,000 form of guanylate cyclase demonstrated positive cooperative kinetics with respect to MnGTP while the Mr 150,000 form displayed linear, Michaelis-Menten type kinetics. The phosphorylation state of the membrane form of guanylate cyclase, therefore, appears to dictate not only the absolute activity of the enzyme but also the degree of cooperative interaction between catalytic or GTP-binding sites.
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PMID:Purification and properties of the phosphorylated form of guanylate cyclase. 289 12

The activating kinase of protein phosphatase 1I is distributed in approximately equal amounts between the cytosolic and particulate fractions of bovine brain homogenates. Both species of this protein kinase have been purified to near homogeneity. The cytosolic form, purified about 7,000-fold, has an apparent Mr = approximately 75,000, as estimated by gel filtration chromatography on Sephacryl S-300. The enzyme contains two subunits, with apparent Mr = 52,000 and 46,000, as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Both subunits undergo phosphorylation when the enzyme is incubated with Mg2+ and [gamma-32P]ATP. Peptide maps of the two subunits are different, and rabbit antibodies to the 52-kDa subunit show only very minor cross-reactivity to the 46-kDa subunit. These observations indicate that the two subunits are different. The species of protein phosphatase 1I activating kinase that is associated with the membrane fraction has an apparent Mr = approximately 105,000 as estimated by gel filtration. This species also contains two subunits, with apparent Mr = 52,000 and 46,000, the properties of which are very similar, if not identical, to those of the two subunits comprising the cytosolic form of the protein kinase.
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PMID:Purification and characterization of protein phosphatase 1I activating kinase from bovine brain cytosolic and particulate fractions. 291 40

The dephosphorylation of phosphorylase a by the catalytic subunit of protein phosphatase-1 obtained from rabbit skeletal muscle is inhibited by heparin in a noncompetitive manner with respect to phosphorylase a (Ki = 8 micrograms/ml). The inhibitory effect of heparin is also observed in the presence of effectors (e.g., glucose and AMP) modifying the dephosphorylation of phosphorylase a. Heat-stable protein inhibitors of protein phosphatase-1 can develop their inhibitory effect of the activity of protein phosphatase-1 even in the presence of heparin. The inhibitory effect of heparin and the heat-stable inhibitor-2 of phosphatase is additive. Polybrene, a heparin antagonist, prevented phosphatase-1 from the inhibition caused by heparin or the inhibitors. Proteins with basic character, histone fractions (H1, H3) and protamine sulfate, can counteract with the inhibitory effect of heparin, but they cannot intercept the actions of inhibitor-1 or -2.
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PMID:Effects of acidic and basic macromolecules on the activity of protein phosphatase-1. 298 54

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 native structures of protein phosphatases have not been clearly established. Several tissues contain high molecular weight enzymes which are converted to active species of Mr approximately 35,000 by denaturing treatments or partial proteolysis. We have used a monoclonal antibody directed against purified bovine cardiac Mr = 38,000 protein phosphatase to determine whether this species is the native catalytic subunit or a proteolytic product of a larger polypeptide. Monoclonal antibody was obtained from a cloned hybrid cell line produced by the fusion of Sp2 myeloma cells with spleen cells from a mouse immunized with phosphatase coupled to hemocyanin. This antibody was specific for the Mr = 38,000 phosphatase as determined by immunoblot analysis of purified enzyme or cardiac tissue extracts after native or sodium dodecyl sulfate-polyacrylamide gel electrophoresis. A single immunoreactive protein of Mr = 38,000 was present in cardiac tissue extracts including extracts prepared from freeze-clamped rat heart rapidly denatured in hot sodium dodecyl sulfate buffer. Precipitation of cardiac extract with 80% ethanol did not alter the Mr of the phosphatase nor did it liberate new immunoreactive material not observed in the extract. Ethanol precipitation caused the dissociation of both phosphatase activity and immunoreactivity from a high Mr form to a form of Mr between 30,000 and 40,000. An immunoreactive protein of Mr = 38,000 was identified in several bovine and rat tissues as well as tissues from rabbits, mice and chickens and human HT-29 cells. From these data we conclude that the Mr = 38,000 cardiac phosphatase is a native catalytic subunit of higher molecular complexes which are dissociated by ethanol precipitation. A very similar, or identical, protein is present in several tissues and species suggesting that this catalytic subunit is a ubiquitous enzyme important in many dephosphorylation reactions.
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PMID:Structural characterization of cardiac protein phosphatase with a monoclonal antibody. Evidence that the Mr = 38,000 phosphatase is the catalytic subunit of the native enzyme(s). 299 81

A high molecular weight phosphoprotein phosphatase was purified from rabbit liver using high speed centrifugation, acid precipitation, ammonium sulfate fractionation, chromatography on DEAE-cellulose, Sepharose-histone, and Bio-Gel A-0.5m. The purified enzyme showed a single band on a nondenaturing polyacrylamide anionic disc gel which was associated with the enzyme activity. The enzyme was made up of equimolar concentrations of two subunits whose molecular weights were 58,000 (range 58,000-62,000) and 35,000 (range 35,000-38,000). Two other polypeptides (Mr 76,000 and 27,000) were also closely associated with our enzyme preparation, but their roles, if any, in phosphatase activity are not known. The optimum pH for the reaction was 7.5-8.0. Km value of phosphoprotein phosphatase for phosphorylase a was 0.10-0.12 mg/ml. Freezing and thawing of the enzyme in the presence of 0.2 M beta-mercaptoethanol caused an activation (100-140%) of phosphatase activity with a concomitant partial dissociation of the enzyme into a Mr 35,000 catalytic subunit. Divalent cations (Mg2+, Mn2+, and Co2+) and EDTA were inhibitory at concentrations higher than 1 mM. Spermine and spermidine were also found to be inhibitory at 1 mM concentrations. The enzyme was inhibited by nucleotides (ATP, ADP, AMP), PPi, Pi, and NaF; the degree of inhibition was different with each compound and was dependent on their concentrations employed in the assay. Among various types of histones examined, maximum activation of phosphoprotein phosphatase activity was observed with type III and type V histone (Sigma). Further studies with type III histone indicated that it increased both the Km for phosphorylase a and the Vmax of the dephosphorylation reaction. Purified liver phosphatase, in addition to the dephosphorylation of phosphorylase a, also catalyzed the dephosphorylation of 32P-labeled phosphorylase kinase, myosin light chain, myosin, histone III-S, and myelin basic protein. The effects of Mn2+, KCl, and histone III-S on phosphatase activity were variable depending on the substrate used.
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PMID:Purification and characterization of a high molecular weight phosphoprotein phosphatase from rabbit liver. 299 4

Calcineurin was isolated from bovine cerebrum extracts by sequential chromatography on Affi-Gel blue and calmodulin affinity columns. Calcineurin so isolated was approximately 90% pure and was composed of equimolar amounts of subunit A (Mr = 61 000-63 000) and subunit B (Mr = 15 000-17 000) when examined by sodium dodecyl sulfate gel electrophoresis. A polypeptide (less than 10%) with Mr = 71 000 whose function and role remains to be investigated, was routinely detected in the calcineurin preparation. Both inhibitory activity (towards calmodulin-dependent cAMP phosphodiesterase) and phosphatase activity (with 32P-labelled myelin basic protein as substrate) were associated with calcineurin as evidenced by (i) coelution from Affi-Gel blue, Affi-Gel calmodulin, diethythaminoethyl-Sepharose, and Sephacryl S-200 chromatography columns; (ii) association with the same protein band on nondenaturing gels; (iii) similar stability upon storage at 4 degrees C and with repeated freezing and thawing; and (iv) parallel heat inactivation. Phosphatase activity of calcineurin was maximal with 32P-labelled myelin basic protein as the substrate. Using this substrate, enzyme activity was generally stimulated 5- to 10-fold in the presence of Ca2+ and calmodulin; half-maximal activation (A0.5) was observed with 25 nM calmodulin. Calmodulin increased the Vmax of the reaction without affecting the Km for the substrate. Optimum temperature and pH for the reaction were 45 degrees C and 7, respectively, in both the absence and presence of Ca2+ and calmodulin.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Isolation and characterization of calcineurin from bovine brain. 300 May 60

A high molecular weight phosphoprotein phosphatase was purified approximately 11,000-fold from the glycogen-protein complex of rabbit skeletal muscle. Polyacrylamide gel electrophoresis of the preparation in the absence of sodium dodecyl sulfate showed a major protein band which contained the activity of the enzyme. Gel electrophoresis in the presence of sodium dodecyl sulfate also showed a major protein band migrating at 38,000 daltons. The sedimentation coefficient, Stokes radius, and frictional ratio of the enzyme were determined to be 4.4 S, 4.4 nm, and 1.53, respectively. Based on these values the molecular weight of the enzyme was calculated to be 83,000. The high molecular weight phosphatase was dissociated upon chromatography on a reactive red-120 agarose column. The sedimentation coefficient, Stokes radius, and frictional ratio of the dissociated enzyme (termed monomer) were determined to be 4.1 S, 2.4 nm, and 1.05, respectively. The molecular weight of the monomer enzyme was determined to be 38,000 by polyacrylamide gel electrophoresis. Incubation of the high molecular weight phosphatase with a cleavable cross-linking reagent, 3,3'-dithiobis(sulfosuccinimidyl propionate), showed the formation of a cross-linked complex. The molecular weight of the cross-linked complex was determined to be 85,000 and a second dimension gel electrophoresis of the cleaved cross-linked complex showed that the latter contained only 38,000-dalton bands. Limited trypsinization of the enzyme released a approximately 4,000-dalton peptide from the monomers and dissociated the high molecular weight phosphatase into 34,000-dalton monomers. It is proposed that the catalytic activity of the native glycogen-bound phosphatase resides in a dimer of 38,000-dalton subunits.
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PMID:Subunit structure and properties of the glycogen-bound phosphoprotein phosphatase from skeletal muscle. 301 68


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