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)

Previous studies have shown that phosphorylase phosphatase can be isolated from rabbit liver and bovine heart as a form of Mr approximately 35,000 after an ethanol treatment of tissue extracts. This enzyme form was designated as protein phosphatase C. In the present study, reproducible methods for the isolation of two forms of protein phosphatase C from rabbit skeletal muscle to apparent homogeneity are described. Protein phosphatase C-I was obtained in yields of up to 20%, with specific activities toward phosphorylase a of 8,000-16,000 units/mg of protein. This enzyme represents the major phosphorylase phosphatase activity present in the ethanol-treated muscle extracts. The second enzyme, protein phosphatase C-II, had a much lower specific activity toward phosphorylase a (250-900 units/mg). Phosphatase C-I and phosphatase C-II had Mr = 32,000 and 33,500, respectively, as determined by sodium dodecyl sulfate disc gel electrophoresis. The two enzymes displayed distinct enzymatic properties. Phosphatase C-II was associated with a more active alkaline phosphatase activity toward p-nitrophenyl phosphate than was phosphatase C-I. Phosphatase C-II activities were activated by Mn2+, whereas phosphatase C-I was inhibited. Phosphatase C-I was inhibited by rabbit skeletal muscle inhibitor 2 while phosphatase C-II was not inhibited. Both enzymes dephosphorylated glycogen synthase and phosphorylase kinase, but displayed different specificities toward the alpha- and beta-subunit phosphates of phosphorylase kinase (Ganapathi, M. K., Silberman, S. R., Paris, H., and Lee, E. Y. C. (1980) J. Biol. Chem. 246, 3213-3217). The amino acid compositions of the two proteins were similar. Peptide mapping of the two proteins showed that they are distinct proteins and do not have a precursor-proteolytic product relationship.
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PMID:Isolation and characterization of rabbit skeletal muscle protein phosphatases C-I and C-II. 632 85

Limited proteolysis of calmodulin with trypsin in the presence of ethylene glycol bis(beta-aminoethyl ether)-N, N,N',N'-tetracetic acid (EGTA) or Ca2+ was performed according to a modification of the method of Drabikowski et al. (Drabikowski, W., Kuznicki, J., and Grabarek, Z. (1977) Biochim. Biophys. Acta 485, 124-133). The resulting peptides were purified by reverse-phase high performance liquid chromatography. Tryptic digests in EGTA yielded peptides 1-106, 1-90, and 107-148 with yields of 9, 47, and 61%, respectively. The digests performed with Ca2+ yielded peptides 1-77 and 78-148 in 35 and 45% yield. Analysis by high performance liquid chromatography indicated that the purified fragments contained less than 0.1% contamination by calmodulin, thus allowing a definitive study of the ability of these fragments to activate, or interact with, calmodulin-regulated enzymes and anti-calmodulin drugs. Each of the fragments, except 107-148, bound to a phenothiazine affinity column in a Ca2+-dependent manner. Thus, calmodulin contains two interaction sites for phenothiazines: one on the NH2-terminal half (fragment 1-77) and one on the COOH-terminal half (fragment 78-148). None of the fragments activates the protein phosphatase, calcineurin, or prevents its stimulation by calmodulin, nor does any of the fragments stimulate Ca2+-dependent cAMP phosphodiesterase. A single cleavage in the middle of the calmodulin molecule results in the rapid dissociation of the two resultant fragments and a loss of ability to activate cAMP phosphodiesterase. One fragment, 78-148, interacts with phosphodiesterase and prevents its activation by calmodulin (Ki: 1.5 +/- 0.4 X 10(-6) M). The same fragment, 78-148, can fully activate phosphorylase kinase but with a lower affinity than calmodulin (Kuznicki, J., Grabarek, Z., Brzeska, H., Drabikowski, W., and Cohen, P. (1981) FEBS Lett. 130, 141-145). Thus, peptide 78-148 behaves as a calmodulin agonist or antagonist or as neither, depending on the enzyme under study.
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PMID:Agonist and antagonist properties of calmodulin fragments. 632 72

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

A high molecular weight protein phosphatase (phosphatase H-II) was isolated from rabbit skeletal muscle. The enzyme had a Mr = 260,000 as determined by gel filtration and possessed two types of subunit, of Mr = 70,000 and 35,000, respectively, as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. On ethanol treatment, the enzyme was dissociated to an active species of Mr = 35,000. The purified phosphatase dephosphorylated lysine-rich histone, phosphorylase a, glycogen synthase, and phosphorylase kinase. It dephosphorylated both the alpha- and beta-subunit phosphates of phosphorylase kinase, with a preference for the dephosphorylation of the alpha-subunit phosphate over the beta-subunit phosphate of phosphorylase kinase. The enzyme also dephosphorylated p-nitrophenyl phosphate at alkaline pH. Phosphatase H-II is distinct from the major phosphorylase phosphatase activities in the muscle extracts. Its enzymatic properties closely resemble that of a Mr = 33,500 protein phosphatase (protein phosphatase C-II) isolated from the same tissue. However, despite their similarity of enzymatic properties, the Mr = 35,000 subunit of phosphatase H-II is physically different from phosphatase C-II as revealed by their different sizes on sodium dodecyl sulfate-gel electrophoresis. On trypsin treatment of the enzyme, this subunit is converted to a form which is a similar size to phosphatase C-II.
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PMID:Isolation and characterization of a high molecular weight protein phosphatase from rabbit skeletal muscle. 633 61

Rabbit skeletal muscle glycogen synthase was phosphorylated by kinase Fa, phosphorylase kinase, and cAMP-independent synthase (casein) kinase-1 to determine the differences among these kinase-catalyzed reactions. The stoichiometry of phosphate incorporation, the extent of inactivation, and the sites of phosphorylation were compared. Synthase (casein) kinase-1 catalyzes the highest level of synthase phosphorylation (4 mol/subunit) and inactivation (reduction of the activity ratio to below 0.05). The sites, defined by characteristic tryptic peptides, phosphorylated by synthase (casein) kinase-1 are distinguishable from those by kinase Fa and phosphorylase kinase. In addition, synthase (casein) kinase-1, unlike kinase Fa, does not activate ATP X Mg2+-dependent protein phosphatase. These results demonstrate that synthase (casein) kinase-1 is a distinct glycogen synthase kinase.
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PMID:Phosphorylation and inactivation of rabbit skeletal muscle glycogen synthase: distinction between kinase Fa-, phosphorylase kinase-, and glycogen synthase (casein) kinase-1-catalyzed reactions. 633 16

A standard preparation of phosphorylase kinase from rabbit skeletal muscle contains 2 mol of phosphoserine/mol of alpha beta gamma delta. This basal stoichiometry is not influenced by application of propranolol and insulin in vivo; these serine phosphates could not be hydrolyzed by phosphatases of the muscle extract or by alkaline phosphatases. When the enzyme is purified in the presence of the protein phosphatase inhibitor sodium fluoride, it contains either 1 or 3 additional mol of phosphoserine/mol of alpha beta gamma delta, termed phosphatase-sensitive phosphates. Both classes of phosphates yield in formic acid one single 31P NMR signal of a narrow line width (approximately 3 Hz) very similar in chemical shift to free phosphoserine. Phosphoserine is also identified by its chemical shift when dissolved in 8 M guanidinium chloride and by its electrophoretic mobility after acid hydrolysis. By self-phosphorylation of phosphorylase kinase, 14 additional mol of phosphate/mol of alpha beta gamma delta was incorporated, and all were identified as phosphoserine by 31P NMR spectroscopy. In native phosphorylase kinase, the 31P NMR signals of both the basal and the phosphatase-sensitive phosphates are substantially broadened and reduced in intensity, indicating strong interactions of the phosphate groups with the protein. The basal and phosphatase-sensitive phosphates give in 8 M guanidinium chloride a homogeneous NMR signal above pH 6; it splits into a doublet below pH 6 and into a triplet below pH 5.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Nonactivated phosphorylase kinase is a phosphoprotein: differentiation of two classes of endogenous phosphoserine residues by phosphorus-31 nuclear magnetic resonance spectroscopy and phosphatase sensitivity. 641 71

Phosphorylation of the isolated rabbit skeletal muscle holotroponin complex at troponin-T by phosphorylase kinase is unusual in that it shows maxima and minima. These oscillations are due to protein phosphatase activity present in the preparations. Following tryptic digestion two phosphorylated peptides, I and II, can be isolated. Their amino-acid compositions are identical and correspond to that of the tryptic peptide which contains the two known phosphorylatable sites 149/150 and 156/7 of troponin-T. Peptide I is phosphorylated on both sites and peptide II only on one site. During phosphorylation the doubly phosphorylated peptide I appears first; after a short lag phase peptide II is formed containing only one phosphate. These phenomena probably cause the observed oscillations in the degree of the holotroponin phosphorylation.
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PMID:Sequential phosphorylation of skeletal muscle troponin. 653 58

When phosphorylase kinase from rabbit skeletal muscle was activated by phosphorylation and then cross-linked with 1,5-difluoro-2,4-dinitrobenzene at pH 6.8, dimers of beta subunits were formed that were not observed during cross-linking of nonphosphorylated enzyme under the same conditions. The ability to form these dimers was due to phosphorylation of the beta subunit because when enzyme phosphorylated in the alpha and beta subunits was incubated with a protein phosphatase relatively specific for the beta subunit (Ganapathi, M.K., Silberman, S.R., Paris, H., and Lee, E.Y.C. (1981) J. Biol. Chem. 256, 3213-3217), the ability to form the cross-linked beta dimers was lost. Significant amounts of two complexes also judged to be dimers of beta subunits were observed when nonphosphorylated phosphorylase kinase was cross-linked after preincubation with Ca2+ plus Mg2+ ions, after proteolysis by chymotrypsin, or when it was cross-linked at pH 8.2, three conditions known to stimulate the activity of the nonphosphorylated enzyme. From these results, we conclude that 1,5-difluoro-2,4-dinitrobenzene can serve as a structural probe for activated states of phosphorylase kinase. The activation is associated with a conformational change in which two beta subunits either move closer together or have a reactive group on one, or both, of them unmasked. Our results suggest that the diverse mechanisms listed above for stimulating phosphorylase kinase activity cause a common conformational change to occur.
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PMID:Activated states of phosphorylase kinase as detected by the chemical cross-linker 1,5-difluoro-2,4-dinitrobenzene. 669 17

We have documented previously that although the phosphorylation of the beta subunit of cardiac phosphorylase kinase plays a major role in activation of the enzyme, enzyme activity is also modulated by either cAMP-dependent or cAMP-independent phosphorylation of the alpha' subunit (Sul, H. S., Cooper R. H., Whitehouse S., and Walsh D. A. (1982) J. Biol. Chem. 257, 3484-3490). This paper reports that deactivation of 32P-labeled cardiac phosphorylase kinase by protein phosphatase occurs concomitantly with the dephosphorylation of either the alpha' or beta subunits. However, enzyme activation attributable to alpha' subunit phosphorylation is still apparent after dephosphorylation of the beta subunit and, similarly, that caused by beta subunit phosphorylation is maintained after alpha' subunit dephosphorylation. These data support out previously stated conclusion that both alpha' and beta subunit phosphorylation regulates the activity of cardiac phosphorylase kinase.
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PMID:Cardiac phosphorylase kinase. Deactivation by selective dephosphorylation of alpha' and beta subunits. 689 11

Calcium- and lipid-dependent protein kinase (PKC) activity in the ovary of the pseudopregnant rat is masked by an endogenous inhibitor of PKC. These studies were undertaken to examine the mechanism of action of the endogenous inhibitor of PKC in the rat ovary. The addition of the phosphatase inhibitors calyculin-A (0.09 nM), microcystin-LR (6.4 nM), and okadaic acid (10 nM) resulted in the loss of PKC inhibitory activity and an increase in basal PKC activity in rat ovarian cytosol. In phosphatase assays, significant dephosphorylation of histone-III-S or myelin basic protein that had been phosphorylated by PKC occurred within 4 min after the addition of ovarian cytosol from the pseudopregnant rat. This dephosphorylation was prevented from the pseudopregnant rat. This dephosphorylation was prevented by the addition of calyculin-A (0.73 nM) and was removed by fractionation of ovarian cytosol on diethylaminoethyl cellulose. No inhibition of PKC activity was observed when the PKC-specific peptides AcMBP-(4-14) and [Ser25]PKC-(19-31) were used as the substrate for phosphorylation. In addition, rat ovarian cytosol did not exhibit phosphatase activity when the peptide AcMBP-(4-14) was used as the substrate. Addition of ovarian cytosol resulted in dephosphorylation of phosphorylase-alpha phosphorylated by phosphorylase kinase, but not dephosphorylation of histone-II-A or histone-VIII-S phosphorylated by PKA. The data suggest that the endogenous inhibitor of PKC in the rat ovary is a protein phosphatase.
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PMID:The endogenous inhibitor of protein kinase-C in the rat ovary is a protein phosphatase. 768 49

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