EC:3.1.3.16 - FACTA Search

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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)

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

The 'native' Mg-ATP-dependent protein phosphatase was isolated from rabbit skeletal muscle by a procedure that avoided the use of organic solvents or heating at 90-100 degrees C. The purified enzyme was composed of two major proteins (molecular mass 37 kDa and 31 kDa) that were present in a 1:1 molar ratio, and accounted for 70-80% of the material. The 37-kDa component comigrated with the catalytic subunit of protein phosphatase-1, and its identity with this protein was established by peptide mapping, and by its cleavage to the characteristic 34-kDa and 33-kDa fragments following incubation with chymotrypsin. The 31-kDa protein comigrated with inhibitor-2, and its identity with this protein was established by its heat stability, ability to inhibit protein phosphatase-1 at nanomolar concentrations, and its phosphorylation on a threonine residue by glycogen synthase kinase 3. It is therefore concluded that the 'native' Mg-ATP-dependent protein phosphatase is composed of the catalytic subunit of protein phosphatase-1 (37 kDa) and inhibitor-2 (31 kDa) in a 1:1 molar ratio. The 'native' Mg-ATP-dependent protein phosphatase had virtually identical properties to the enzyme reconstituted from inhibitor-2 and the 37-kDa catalytic subunit of protein phosphatase-1. Each preparation had a similar specific activity and was inhibited by identical concentrations of inhibitor-1. Both enzymes could be activated by incubation with glycogen synthase kinase-3 and Mg-ATP, or by Mn2+ and trypsin (or chymotrypsin). However, Mn2+ alone, or proteinase digestion in the absence of Mn2+, failed to activate either preparation. Incubation with glycogen synthase kinase-3 and Mg-ATP did not dissociate the 'native' or 'reconstituted' enzymes, whereas treatment with Mn2+ and trypsin decreased their apparent molecular masses from 70 kDa to 35 kDa. Incubation with chymotrypsin converted the 'native' and 'reconstituted' enzymes to forms that required preincubation with glycogen synthase kinase-3, Mg-ATP and inhibitor-2, in order to exhibit catalytic activity. The Mg-ATP-dependent protein phosphatase reconstituted from the 'nicked' 33-kDa catalytic subunit dissociated upon activation, in contrast to the enzyme reconstituted from the undegraded 37-kDa catalytic subunit. The results suggest that a 3-4-kDa fragment at one end of the polypeptide is involved in strengthening interaction between the undegraded 37-kDa catalytic subunit and the phosphorylated form of inhibitor-2.
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PMID:The protein phosphatases involved in cellular regulation. Comparison of native and reconstituted Mg-ATP-dependent protein phosphatases from rabbit skeletal muscle. 609 83

Two nuclear phosphoprotein phosphatases (PPases I and II) that cause dephosphorylation of [32P]histone, have been partially purified from goat testis. The enzymic activity is associated with nucleoplasm and chromatin. PPase I is markedly stimulated (approx. 200-600%) by Mg2+ or Mn2+ (1 mM) whereas Ca2+ (1 mM) causes slight stimulation (approx. 35%) of the enzyme. On the contrary, PPase II is only slightly activated (20-40%) by these metal ions (5 mM). Both the phosphoprotein phosphatase isoenzymes are maximally active at pH 6-7. PPases I and II are strongly inhibited (approx. 60-100%) by ZnCl2 (1 mM), P1 (5 mM) and thiol reagents. NaF (5 mM) inhibits (approx. 40%) specifically the activity of PPase I rather than PPase II. PPases are strongly inhibited by relatively high concentration of NaCl (0.4 M), isoenzyme II being more sensitive (approx. 80%) than isoenzyme I (approx. 50%). In addition to histones, both the isoenzymes can as well cause dephosphorylation of protamine, casein, and testicular nuclear proteins. Enzymic characteristics of the testicular nuclear PPases are clearly different from those of the cytosolic enzyme previously characterized.
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PMID:Characterization of nuclear phosphoprotein phosphatases from goat testis. 609 85

Calcineurin, a calmodulin-binding protein from brain, has been shown to possess a metal ion-dependent and calmodulin-stimulated phosphatase activity towards phosphorylase kinase and inhibitor-1 (Stewart, A. A., Ingebritsen, T. S., Manalan, A., Klee, C. B., and Cohen, P. (1982) FEBS Lett. 137, 80-84). In this report, we show that calcineurin can also dephosphorylate p-nitrophenyl phosphate and free phosphotyrosine. However, calcineurin does not show significant activity towards phosphothreonine, phosphoserine, or several other low molecular weight phosphocompounds tested. As we have found with phosphorylase kinase and phosphocasein, the dephosphorylation of p-nitrophenyl phosphate and free phosphotyrosine is stimulated by calmodulin and is metal ion-dependent with the order of efficiency being Mn2+ much greater than Co2+ greater than Ca2+. The dephosphorylation of these substrates appears to be an intrinsic property of calcineurin and is not due to contamination by alkaline phosphatases since the pH optimum for calcineurin activity occurs at a neutral rather than an alkaline pH. The dephosphorylation of p-nitrophenyl phosphate provides an easy, rapid, and accurate method for the quantification of calcineurin activity as well as permitting insight into reaction kinetics. The dephosphorylation of free phosphotyrosine by calcineurin suggests that this compound may be a physiological substrate of calcineurin.
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PMID:Calmodulin-stimulated dephosphorylation of p-nitrophenyl phosphate and free phosphotyrosine by calcineurin. 619 Aug 10

An enzyme fraction containing phosphatase activity for phosphorylated eukaryotic peptide initiation factor 2 (eIF-2) has been isolated from rabbit reticulocytes and partially characterized. The enzyme efficiently catalyzes release of phosphate from the small subunit of eIF-2 (eIF-2 alpha) that has been phosphorylated by the hemin-controlled repressor. It is shown to restore activity of this phosphorylated eIF-2 for binding of methionyl-tRNAf to 40 S ribosomal subunits in a partial reaction of peptide initiation. The enzyme fraction also has phosphatase activity for eIF-2 phosphorylated in its largest subunit and for the 100,000-dalton peptide associated with the eIF-2 alpha kinase activity of the hemin-controlled repressor. The phosphoprotein phosphatase has been isolated by a procedure involving precipitation with ethanol at room temperature and has an apparent molecular weight in the order of 76,000. Its phosphatase activity for eIF-2 alpha is stimulated about 3-fold by optimal concentrations of Mn2+, but is not stimulated by Ca2+ or Mg2+. The enzyme is strongly inhibited by Fe2+ and by purine nucleoside diphosphates.
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PMID:Partial purification and characterization of reticulocyte phosphatase with activity for phosphorylated peptide initiation factor 2. 624 24

A phosphoprotein phosphatase has been partially purified from rat epididymal fat pads by a procedure utilizing ammonium sulfate and ethanol precipitations and chromatography on DEAE-Sephadex A-50. The phosphatase was eluted from Sephadex G-75 columns with an apparent molecular weight of 28 000. The phosphoprotein phosphatase catalyzed the reversible deactivation of protein kinase activated chicken adipose tissue hormone-sensitive triglyceride lipase. Phosphatase activity measured with activated triglyceride lipase as substrate was completely dependent upon the presence of metal ions (Mg2+, Ca2+, or Mn2+) and was inhibited by inorganic phosphate and adenine nucleotides. The fat pad phosphatase increased the rate of activation of glycogen synthase in rat adipose tissue infranatant fractions from fed and 24-h fasted rats but had little or no effect on synthase activity in infranatant fractions from rats fasted for 48 h. Fasting had no effect on rat fat pad phosphatase activity measured with triglyceride lipase as substrate, but phosphatase activity was decreased in preparations from diabetic rats.
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PMID:Properties of a phosphoprotein phosphatase from rat epididymal fat pads: deactivation of hormone-sensitive triglyceride lipase and activation of glycogen synthase in adipose tissue. 624 77

Preincubation of two homogeneous rabbit liver phosphoprotein phosphatases (phosphophoprotein phosphohydrolases, EC 3.1.3.16) (Khandelwal, R.L., Vandenheede, J.R. and Krebs, E.G. (1976) J. Biol. Chem. 251, 4850-4858) with ATP, ADP and PPi caused a time- and concentration-dependent inactivation of the enzyme activity. A 50% inactivation of phosphoprotein phosphatase I required relatively low concentration of inactivating metabolite and less preincubation time as compared to the inactivation of phosphoprotein phosphatase II. AMP, adenosine, adenine, Pi, EDTA, EGTA, 1,10-phenanthroline and diethyl dithiocarbamate were without effect on both enzymes. Pretreatment of both enzymes by metal-chelating agents followed by PPi did not augment the effect observed with PPi alone. Both inactivated enzymes could be reactivated by cobalt or manganese in the presence of dithiothreitol. Although the extent of reactivation by these two metal ions was almost similar, cobalt required a ten times lower concentration than manganese for this process. No difference in inactivation or reactivation of both enzymes was observed with different substrates, phosphorylase a, histone or casein, employed in the assay. Pi and PPi added during the assay inhibited activities of both phosphatases with phosphorylase a and casein substrates. With histone as substrate, PPi slightly inhibited enzyme activities at lower concentrations (0.01-0.25 mM) but activated at higher concentrations. Pi activated both enzymes with this substrate; maximal activation being observed at a concentration of 5 mM.
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PMID:Studies on in activation and reactivation of homogeneous rabbit liver phosphoprotein phosphatases by inorganic pyorphosphate and divalent cations. 624 57

The diverse metal requirements for activity of the phosphoprotein phosphatases (EC 3.1.3.16) concerned with glycogen metabolism in rat liver were postulated to reflect the diverse binding intensities of their essential metal(s). After inactivation by fluoride, three of these phosphatases had similar metal requirements in contrast to a fourth phosphatase. Further similarities led to a grouping of these enzymes into two general types. Phosphatases designated type 1 consisted of three enzymes which had the following properties; (1) preference for glycogen phosphorylase a as a substrate; (2) molecular weights in excess of 100 000; (3) conversion to an active 30 000 dalton 'subunit' form upon selective denaturation by 80% ethanol; (4) diverse degrees of stimulation by metals (Mg2+ and Mn2+); and (5) changes to an absolute dependence upon added Mn2+ (but not Mg2+) for activity of both the holoenzyme and the subunit after a demetallating treatment with fluoride in EDTA. The phosphatase designated type 2 exhibited the following properties; (1) preference for glycogen synthase D as a substrate; (2) molecular weight of 50 000; (3) no conversion to an active 30 000 dalton subunit form upon selective denaturation by 80% ethanol; (4) complete metal-dependence upon either Mg2+ or Mn2+; and (5) no change to an absolute dependence on added Mn2+ for activity after a demetallating treatment with fluoride in EDTA.
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PMID:Use of fluoride to inactivate phosphorylase a phosphatases from rat liver cytosol. Presence of fluoride-insensitive glycogen synthase-specific phosphatase. 625 Jun 27

Sarcoplasmic phosphorylase phosphatase extracted from ground skeletal muscle was recovered in a high molecular weight from (Mr = 250000). This enzyme has been purified from extracts by anion-exchange and gel chromatography to yield a preparation with three major protein components of Mr 83000, 72000, and 32000 by sodium dodecyl sulfate gel electrophoresis. The phosphorylase phosphatase activity of the complex form was activated more than 10-fold by Mn2+, with a K0.5 of 10(-5) M, but not by Mg2+ or Ca2+. Manganese activation occurred over a period of several minutes and resulted primarily in an increase in Vmax of a phosphatase that was sensitive to trypsin. Activation persisted after gel filtration, and the active form of the enzyme did not contain bound manganese measured by using 54Mn2+. A contaminating p-nitrophenylphosphatase was activated by either Mn2+ (K0.5 of 10(-4) M) or Mg2+ (K0.5 of 10(-3) M). Unlike the protein phosphatase this enzyme was inactive following removal of the metal ions by gel filtration. The phosphatase complex could be dissociated into its component subunits by precipitation with 50% acetone at 20 degrees C in the presence of an inert divalent cation, reducing agent, and bovine serum albumin. Two catalytic subunits were quantitatively recovered; one of Mr 83000 was a trypsin-sensitive manganese-activated phosphatase and the second of Mr 32000 was trypsin-stable and metal ion dependent. Both enzymes were effective in catalyzing the dephosphorylation of either phosphorylase a or the regulatory subunit of adenosine cyclic 3',5'-phosphate (cAMP) dependent protein kinase, but neither subunit possessed p-nitrophenylphosphatase activity.
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PMID:Phosphorylase phosphatase complex from skeletal muscle. Activation of one of two catalytic subunits by manganese ions. 625 90

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