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)

Myelin basic protein (MBP) reduces the amount of phosphatase activity produced in the kinase FA-mediated activation of the ATP,Mg-dependent phosphatase. MBP was shown not only to inhibit the activated enzyme, but also to impair the kinase FA-mediated activation of the inactive phosphatase. In addition MBP prevents the time-dependent inactivation of the catalytic subunit by the modulator protein. These observations point to a regulatory role for MBP in the reversible activation of the ATP,Mg-dependent protein phosphatase by kinase FA.
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PMID:Interaction of myelin basic protein with the different components of the ATP,Mg-dependent protein phosphatase system. 243 57

A Mn2+/phospholipid-dependent protein phosphatase has been identified and characterized from brain membranes. The phosphatase contains three subunits with molecular weights of 64,000, 54,000, and 35,000 in a 1:1:1 molar ratio. On gel filtration, the enzyme has an apparent molecular weight of approximately 180,000. The phosphatase was active on many substrates, including p-nitrophenyl phosphate, phosphotyrosine, phosphothreonine, phosphorylase a, myelin basic protein, histones, type 1 phosphatase inhibitor-2, microtubule tau protein, and synapsin I. To dephosphorylate phosphoproteins, the phosphatase was dependent on such acidic phospholipids as phosphatidylinositol and phosphatidylserine but not on neutral phospholipids such as phosphatidylcholine and phosphatidylethanolamine. The phospholipid-mediated activation of the phosphatase was time and dose dependent and could be reversed by Triton X-100 or gel filtration. Kinetic study further indicates that phospholipid was able to increase the Vmax of the phosphatase but had no effect on the Km value for substrates, suggesting a direct interaction of phospholipids with the phosphatase. Conversely, in order to dephosphorylate phosphoamino acids such as phosphotyrosine and phosphothreonine, this phosphatase was entirely dependent on Mn2+. Phospholipids had no effect on the dephosphorylation of phosphoamino acids, whereas Mn2+ had no effect on the dephosphorylation of phosphoproteins. It is concluded that this Mn2+/phospholipid-dependent membrane phosphatase has two distinct activation mechanisms. The enzyme requires Mn2+ to dephosphorylate micromolecules, whereas acidic phospholipids are needed to dephosphorylate macromolecules. This suggests that Mn2+ and phospholipids may play a role in regulating the substrate specificity of this multisubstrate membrane phosphatase.
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PMID:Purification and characterization of a Mn2+/phospholipid-dependent protein phosphatase from pig brain membranes. 255 48

Using a radioimmunoassay, we have measured the level of calmodulin-dependent phosphatase (calcineurin) in various subcellular fractions from chick forebrain. Our results revealed high levels of the enzyme in the cytoplasm and microsomes. A considerable amount was also observed in synaptosomes, where it was found exclusively in the synaptoplasm, comprising 0.32% of the total synaptoplasmic protein. Immunocytochemical localization of the phosphatase in isolated synaptosomes supported the biochemical finding. Phosphatase was not detected in nuclei, myelin, synaptic vesicles, and mitochondria. These results suggest that myelin basic protein and histone H1, widely used in biochemical characterization studies of the phosphatase, may not be physiological substrates, and that the cytoplasm, microsomes, and synaptoplasm may prove to be useful sources for the identification of physiological substrates.
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PMID:Quantitative subcellular localization of calmodulin-dependent phosphatase in chick forebrain. 283 79

Recent evidence suggests that the function of receptors coupled to guanine nucleotide regulatory proteins may be controlled by highly specific protein kinases, e.g. rhodopsin kinase and the beta-adrenergic receptor kinase. In order to investigate the nature of the phosphatases which might be involved in controlling the state of receptor phosphorylation we studied the ability of four highly purified well characterized protein phosphatases to dephosphorylate preparations of rhodopsin or beta 2-adrenergic receptor which had been highly phosphorylated by beta-adrenergic receptor kinase. These included: type 1 phosphatase, calcineurin phosphatase, type 2A phosphatase, and the high molecular weight latent phosphatase 2. Under conditions in which all the phosphatases could dephosphorylate such common substrates as [32P]phosphorylase a and [32P]myelin basic protein at similar rates only the latent phosphatase 2 was active on the phosphorylated receptors. Moreover, a latent phosphatase activity was found predominantly in a sequestered membrane fraction of frog erythrocytes. This parallels the distribution of a beta-adrenergic receptor phosphatase activity recently described in these cells (Sibley, D. R., Strasser, R. H., Benovic, J. L., Daniel, K., and Lefkowitz, R. J. (1986) Proc. Natl. Acad. Sci. U. S. A. 83, 9408-9412). These data suggest a potential role for the latent phosphatase 2 as a specific receptor phosphatase.
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PMID:Dephosphorylation of the beta 2-adrenergic receptor and rhodopsin by latent phosphatase 2. 283 66

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

The activating factor FA of the ATP.Mg-dependent protein phosphatase FcM was purified to near homogeneity from pig brain by a procedure involving chromatography on phosphocellulose, phosvitin-Sepharose 4B, and Blue Sepharose CL-6B. A specific myelin basic protein (MBP) kinase was found to co-purify with FA in a constant ratio throughout purification. It also proved impossible to separate the two activities on nondenaturing gel electrophoresis and 5-20% sucrose density gradient ultracentrifugation. Kinetic study indicated that MBP, presumably a substrate for FA, could compete with FcM for FA and thereby prevent the FA-mediated activation of the FcM activity. All the results taken together demonstrate that MBP kinase and FA are localized on the same protein. This, together with the data that FA, by activating the ATP.Mg-dependent phosphatase, promotes the dephosphorylation of [32P]MBP, phosphorylated by FA itself, suggests the evidence for a protein bearing two opposing activities involved in the regulation of brain functions. Moreover, since FA is tightly associated with the purified brain myelin membrane, the results further support the notion that FA may well be an endogenous protein kinase responsible for the cyclic phosphorylation-dephosphorylation of the central nervous system myelin.
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PMID:Identification of the ATP.Mg-dependent protein phosphatase activator (FA) as a myelin basic protein kinase in the brain. 301 47

Calmodulin-dependent phosphoprotein phosphatase (CaMDP) activity has been found in each of three cultured cell lines: rat pheochromocytoma (PC12), glioma (C6), and pituitary adenoma (GH3) cells. These CaMDP activities bind to immobilized calmodulin in the presence of Ca2+ and are eluted by EGTA. Sucrose density centrifugation revealed that the phosphatase activities exhibited sedimentation coefficients of 4.37, 4.23, and 4.59 for proteins derived from C6, GH3, and PC12 cells, respectively. The Stokes radii measured for the PC12 and C6 activities were 41.8 and 40.0 A, respectively. The estimated molecular weights calculated for the enzymes from these data are 79,100 and 72,200. The phosphatase activities required the presence of divalent cations such as Ca2+ or Mn2+ for expression of activity, which was optimal only in the presence of calmodulin. The apparent Km for phosphorylated myelin basic protein substrate was 8 microM. Affinity-purified antibodies to the B subunit of bovine brain CaMDP were found by immunoblot (Western blot) to cross-react with a single protein among proteins extracted from PC12, C6, and GH3 cells that had been resolved by two-dimensional electrophoresis. In each case, the cross-reacting protein exhibited an Mr of 16,000 and an isoelectric point of 4.7, values virtually identical to those reported previously for the B subunit of bovine brain CaMDP (sometimes called calcineurin). This cross-reacting protein was found among cellular proteins eluted from immobilized calmodulin by EGTA. Immunocytochemical localization of the cross-reacting protein in undifferentiated PC12 cells or in cells differentiated in response to nerve growth factor revealed its presence diffusely throughout the cytoplasm. These experiments support the contention that each of these cell lines contains a calmodulin-regulated phosphatase homologous physically and kinetically, and immunologically related to bovine brain CaMDP.
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PMID:Calmodulin-dependent phosphatases of PC12, GH3, and C6 cells: physical, kinetic, and immunochemical properties. 329 45

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

The existence of an endogenous protein kinase activity and protein phosphatase activity in myelin membrane from mammalian brain has now been well established. We found that under all conditions tested the myelin basic protein is almost the only substrate of the endogenous protein kinase in myelin of bovine brain. The protein kinase activity is stimulated by Ca2+ in the micromolar range. Optimal activity is reached at a free Ca2+ concentration of about 2 microM. Myelin membrane vesicles were prepared and then shown to be sealed by a light-scattering technique. After preloading with 45Ca2+, 86Rb+, or 22Na+, the self-diffusion (passive outflux) of these ions from myelin membrane vesicles was measured. Ionophores induced a rapid, concentration-dependent outflux of 80--90% of the cations, indicating that only a small fraction of the trapped ions was membrane bound. There was no difference in the diffusion rates of the three cations whether phosphorylated (about 1 mol phosphate per myelin basic protein) or non-phosphorylated vesicles were tested. In contrast, a small but significant decrease in permeability for Rb+ and Na+ was measured, when the vesicles were pretreated with ATP and Mg2+.
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PMID:A permeability change of myelin membrane vesicles towards cations is induced by MgATP but not by phosphorylation of myelin basic proteins. 616 56

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