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)

Intact washed spermatozoa from goat cauda epididymis possess an ecto-phosphoprotein phosphatase that causes dephosphorylation of phosphoserine and phosphothreonine residues of exogenous 32P-labelled histones. The cell-bound ecto-enzyme has high affinity for proteins (histones, casein, phosvitin, and protamine) rather than phosphate esters, such as p-nitrophenyl phosphate, beta-glycerophosphate, AMP, and ATP. The activity of the enzyme is inhibited by 4 mM Mg2+, Ca2+, Mn2+, or Co2+. Pi (10 mM), NaF (10 mM), and Zn2+ (1 mM) inhibit the enzyme by approximately 50, 35, and 100%, respectively. Polyamines such as spermine and spermidine at 10 mM each caused significant inhibition (60 and 30%, respectively) of the cell-bound phosphoprotein phosphatase activity, whereas cAMP, orthovanadate, and calmodulin (with or without Ca2+) had no appreciable effect. Under the standard assay conditions, spermatozoa remain intact as evidenced by assay of cytosolic enzyme markers. Both the washed and "native" intact spermatozoa showed nearly the same specific activity of the ectoenzyme. The product of the reaction (Pi) was found in the extracellular medium. Sonication doubled the enzymic activity of the intact cells. The specific activity of the enzyme was nearly fourfold higher in the intact forwardly motile cells than the "composite" spermatozoa. These data provide further support for the localization of a phosphoprotein phosphatase on the external surface of spermatozoa and that the ectoenzyme may have a role in the regulation of flagellar motility.
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PMID:Enzymic characteristics of ecto-phosphoprotein phosphatase in goat epididymal intact spermatozoa. 282 47

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

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

The interaction of divalent metal ions with a homogeneous 56,000-dalton phosphoprotein phosphatase isolated from rabbit reticulocytes was studied. The effects of the ions on enzymatic activity and on fluorescence from a 3-(4-maleimidylphenyl)-4-methyl-7-(diethylamino)coumarin derivative of the protein were compared. Enzymatic activity is dependent on Mn2+. The apparent association constant for Mn2+ is about 0.5 mM-1 as judged from enzymatic activity and from changes in fluorescence caused by binding of the metal ion; Ca2+ and Mg2+ do not affect enzymatic activity and appear not to bind tightly to the enzyme; however, Co2+, Fe2+, and Zn2+ bind to the protein and inhibit the Mn2+-activated enzyme. The 56,000-dalton phosphoprotein phosphatase was found to interact with regulin, a spectrin-associated protein also isolated from reticulocytes, and with skeletal muscle phosphatase inhibitor 2. The interaction was followed by changes in the enzymatic activity and by quenching of fluorescence from the coumarin derivative of the phosphatase. Homogeneous regulin (Mr approximately 230,000) increases the activity of the enzyme severalfold; this stimulation is Mn2+-dependent. Inhibitor 2 decreases enzyme activity but only if the two proteins are preincubated in the absence of Mn2+. Comparable differences in the effect of Mn2+ were also observed in parallel experiments in which changes in fluorescence from the coumarin-labeled 56,000-dalton phosphatase were measured. In these experiments, it was shown that Mn2+ enhances the interaction between regulin and the 56,000-dalton phosphatase, but inhibits the interaction between the phosphatase and inhibitor 2.
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PMID:Interaction of the 56,000-dalton phosphoprotein phosphatase from reticulocytes with regulin and inhibitor 2. 301 77

The ATP X Mg2+-dependent phosphoprotein phosphatase has been purified from bovine heart to near-homogeneity. It is a heterodimer (75 kDa) consisting of a catalytic (C) subunit (40 kDa) and a regulatory (R) subunit (35 kDa). The R subunit, which is identical to inhibitor-2, is transiently phosphorylated during activation of the enzyme catalyzed by phosphatase-1 kinase (FA). Maximal activation requires preincubation of the phosphatase with FA and ATP X Mg2+. However, relatively low yet definitively demonstrable basal activity can be expressed by Mg2+ alone (ranging from 3% to 10% of the FA X ATP X Mg activity, depending on the degree of endogenous proteolytic damage of the phosphatase during purification), but not by either FA or ATP alone. Limited trypsinization results in a rapid and total degradation of the R subunit and partial degradation of the 40-kDa C subunit to active proteins of 35-38 kDa. The resulting 'nicked' C subunit of 35-38 kDa is no longer dependent on FA for activation and can be fully activated by Mg2+ (or Mn2+) alone. Endogenous proteolytic damage of the R subunit also results in an increase of activity that can be expressed by M2+ alone with a concomitant decrease of the FA-dependent activation. Although Mn2+ is slightly more effective than Mg2+ in expressing the holoenzyme basal activity, the activation by Mn2+ is only about 60% of that of Mg2+ when FA and ATP are also present. In the activation by adenosine 5'-[gamma-thio]triphosphate (ATP[gamma S]), Co2+ is the most effective cofactor. The activation by ATP[gamma S] X Co2+ is more than 50% of that by ATP X Mg2+. The present studies indicate that Mg2+ is the natural divalent cation for the FA-catalyzed activation in which Mg2+ plays two distinctly different roles: it forms Mg2+ X ATP which serves as a substrate for the kinase; it acts as an essential cofactor for the catalytic function of the phosphatase. The discrepancies between the results obtained by this and other laboratories with respect to the effectiveness of Mg2+ and ATP[gamma S] in the activation of the phosphatase are discussed.
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PMID:Purification, subunit composition and regulatory properties of the ATP X Mg2+-dependent form of type I phosphoprotein phosphatase from bovine heart. 301 19

Interactions of several divalent cations (Mn2+, Ca2+, Co2+, Sr2+, and Zn2+) with EGTA-inhibitable adenylate cyclase were investigated in washed membranes (particles) isolated from the gray matter of rat cerebral cortex. The EGTA-inhibitable (called sensitive) enzyme activity was assayed in the presence of Triton X-100 since this detergent caused a marked increase (up to 20-fold) in the enzyme activity. The effects of various divalent metals (all added as chloride salt) indicated the presence of two distinct sites called site I and site II. At low concentrations (less than micromolar) Mn2+, Co2+, and Ca2+ increased (up to 10-fold) the enzyme activity to the same extent and appeared to act via binding to site I (high affinity site). The rank order of affinity was Mn2+ greater than or equal to Co2+ greater than Ca2+. Zn2+ showed the highest affinity and Sr2+ the lowest towards binding to site I; both these metals increased the enzyme activity to lesser extents than Mn2+, Co2+, or Ca2+. GTP was not required for the stimulation of this enzyme by low concentrations of Ca2+. The interaction of Mn2+ with site II (low affinity site) caused further increase in the enzyme activity, whereas Co2+, Ca2+, and Sr2+ were inhibitory at concentrations greater than 10 microM. Isolated fraction contained loosely and tightly associated pools of calmodulin. Myelin basic protein, but not calcineurin, inhibited the EGTA-sensitive adenylate cyclase activity. The EGTA-insensitive enzyme activity was increased by norepinephrine by mechanisms that depended on GTP and was inhibited by Ca2+. The stimulation of the EGTA-insensitive enzyme modulated the Mg2+ requirement such that Mg2+ binding to the low affinity site (site II) apparently occurred with higher affinity. The likely significance of these results is discussed with regard to (i) the presence of two classes of adenylate cyclase in rat cerebral cortex gray matter and (ii) the regulation of their activities by calmodulin-requiring and GTP-requiring mechanisms.
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PMID:EGTA-sensitive and -insensitive forms of particulate adenylate cyclase in rat cerebral cortex: regulation by divalent cations and GTP. 393 3

Calcineurin purified from bovine brain was found to be active towards beta-naphthyl phosphate greater than p-nitrophenyl phosphate greater than alpha-naphthyl phosphate much greater than phosphotyrosine. In its native state, calcineurin shows little activity. It requires the synergistic action of Ca2+, calmodulin, and Mg2+ for maximum activation. Ca2+ and Ca2+ X calmodulin exert their activating effects by transforming the enzyme into a potentially active form which requires Mg2+ to express the full activity. Ni2+, Mn2+, and Co2+, but not Ca2+ or Zn2+, can substitute for Mg2+. The pH optimum, and the Vm and Km values of the phosphatase reaction are characteristics of the divalent cation cofactor. Ca2+ plus calmodulin increases the Vm in the presence of a given divalent cation, but has little effect on the Km for p-nitrophenyl phosphate. The activating effects of Mg2+ are different from those of the transition metal ions in terms of effects on Km, Vm, pH optimum of the phosphatase reaction and their affinity for calcineurin. Based on the Vm values determined in their respective optimum conditions, the order of effectiveness is: Mg2+ greater than or equal to Ni2+ greater than Mn2+ much greater than Co2+. The catalytic properties of calcineurin are markedly similar to those of p-nitrophenyl phosphatase activity associated with protein phosphatase 3C and with its catalytic subunit of Mr = 35,000, suggesting that there are common features in the catalytic sites of these two different classes of phosphatase.
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PMID:Activation of brain calcineurin phosphatase towards nonprotein phosphoesters by Ca2+, calmodulin, and Mg2+. 608 12

Bovine brain calmodulin-dependent protein phosphatase comprises a catalytic subunit A (Mr 60,000) and a regulatory subunit B (Mr 19,000). The native enzyme was active with Ca2+ or Mn2+. Upon resolution into its subunits in 6 M urea and 15 mM EDTA, subunit A was active with Mn2+; Co2+ and Ni2+ partially substituted for Mn2+, but Ca2+, Mg2+ and Zn2+ were ineffective. The stimulating effect of Mn2+ was not easily reversed by EGTA. Like the native phosphatase, subunit A was markedly stimulated by calmodulin or by controlled trypsinization. Unlike the native enzyme, however, trypsinized subunit A still required Mn2+ for activity. These findings provide evidence that the catalytic subunit of phosphatase may be a metallo (possibly Mn2+) enzyme.
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PMID:Subunit A of calmodulin-dependent protein phosphatase requires Mn2+ for activity. 608 83

Using Thr(P)-inhibitor-1 and Ser(P)-casein as substrates, studies on the activation of calcineurin purified from bovine brain have been carried out. The phosphatase requires the synergistic action of Ca2+, calmodulin and another divalent cation (Mg2+, Mn2+, Co2+ or Ni2+, but not Zn2+) for full expression of its activity. Ca2+ and Ca2+ X calmodulin act as allosteric activators to transform the phosphatase to a relaxed conformation, while Mg2+ acts solely as a cofactor for the catalytic action of the enzyme. In addition to their function as cofactors for catalysis, transition metal ions can also substitute for Ca2+ as allosteric activators. Ca2+ and calmodulin exert their activating effects mainly by increasing the Vm of the phosphatase reaction with little effect on the Km values for the substrates or on the KA values for the divalent cation cofactors. The predominant factor in dictating the catalytic properties of calcineurin is the divalent cation cofactor. For example, with Mg2+ as a cofactor, the phosphatase exhibits an optimum around pH 8.0-8.5; while with a transition metal ion as a cofactor, the optimum is around pH 7.0-7.5, regardless of whether Thr(P)-inhibitor-1 or Ser(P)-casein serves as a substrate, in the absence or the presence of Ca2+ X calmodulin.
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PMID:Activation of brain calcineurin towards proteins containing Thr(P) and Ser(P) by Ca2+, calmodulin, Mg2+ and transition metal ions. 609 74

Evidence is presented on the existence of an acid phosphoprotein phosphatase (APPase) associated with rat splenic cell nucleoli. The enzyme is purified 1250-fold from 0.3 M NaCl nucleolar extract by means of chromatography on P cellulose and Sephacryl S-200. The nucleolar acid phosphoprotein phosphatase is a very basic protein (pI 8.3) and shows maximal activity at pH 5.8. It dephosphorylates acidic phosphoproteins (casein and phosvitin), ATP, and p-nitrophenyl phosphate, but not basic phosphoproteins (histones and protamine phosphate). The enzyme activity is very dependent on reducing agents, especially on ascorbic acid. Divalent and monovalent cations did not affect phosphatase activity, but heavier divalent metals, Co2+ and Zn2+, strongly inhibit the enzyme activity. The activity was also inhibited by N-ethylmaleimide, indicating a requirement for free sulfhydryl groups. The estimated molecular weight of the purified enzyme is approximately 38,000 by gel filtration and sedimentation in sucrose gradient concentration.
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PMID:Characterization of low-molecular-weight acid phosphoprotein phosphatase associated with rat splenic cell nucleoli. 609 79

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