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)

Two homogeneous protein phosphatases, termed 'smooth muscle phosphatase-I' and 'smooth muscle phosphatase-II', isolated from turkey gizzard as enzymes active against the 20-kDa light chain of smooth muscle myosin, and a third homogeneous protein phosphatase from rabbit reticulocytes, purified as an enzyme active against protein synthesis initiation factor eIF-2, were classified using the criteria defined by Ingebritsen and Cohen [Eur. J. Biochem. (1983) 132, 255-261]. All three enzymes were type-2 protein phosphatases based on their specificity for the alpha-subunit of phosphorylase kinase and insensitivity to inhibitor-1 and inhibitor-2. The substrate specificities of smooth muscle phosphatase-I and the eIF-2 phosphatase were similar to the catalytic subunit of protein phosphatase-2A. Smooth muscle phosphatase-I could be designated as protein phosphatase-2A1 and eIF-2 phosphatase as protein phosphatase-2A2 on the basis of their subunit compositions. The substrate specificity, dependence of activity on Mg2+ and subunit composition of smooth muscle phosphatase-II allowed its assignment as protein phosphatase-2C.
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PMID:The protein phosphatases involved in cellular regulation. 4. Classification of two homogeneous myosin light chain phosphatases from smooth muscle as protein phosphatase-2A1 and 2C, and a homogeneous protein phosphatase from reticulocytes active on protein synthesis initiation factor eIF-2 as protein phosphatase-2A2. 630 27

Protein phosphatase-2B was purified from extracts of rabbit skeletal muscle by a procedure that involved fractionation with ammonium sulphate, chromatography on DEAE-Sepharose, fractionation with poly(ethylene glycol), gel filtration on Sephadex G-200 (Mr = 98000 +/- 4000), chromatography on Affi-Gel Blue and affinity chromatography on calmodulin-Sepharose. The enzyme was purified 3500-fold in seven days with an overall yield of 0.5%. The alpha-subunit of phosphorylase kinase, protein phosphatase inhibitor-1 and the myosin P-light chain from rabbit skeletal muscle were dephosphorylated by protein phosphatase-2B with similar kinetic constants. The alpha-subunit of phosphorylase kinase was dephosphorylated at least 100-fold more rapidly than the beta-subunit, while glycogen phosphorylase, glycogen synthase, histones H1 and H2B, ATP-citrate lyase, acetyl-CoA carboxylase, L-pyruvate kinase and protein synthesis initiation factor eIF-2 were not dephosphorylated at significant rates. Protein phosphatase-2B became activated 10-fold by calmodulin (A0.5 = 6 nM) after chromatography on DEAE-Sepharose and this degree of activation was maintained throughout the remainder of the purification. Calmodulin increased the Vmax of the reaction without altering the Km for inhibitor-1. The activity of protein phosphatase-2B was completely dependent on Ca2+ in the presence or absence of calmodulin. Half-maximal activation was observed at 1.0 microM Ca2+ in the absence, and at 0.5 microM Ca2+ in the presence, of 0.03 microM calmodulin. Protein phosphatase-2B was inhibited completely by trifluoperazine; half-maximal inhibition occurred at 45 microM in the absence and 35 microM in the presence of 0.03 microM calmodulin. The metabolic role of protein phosphatase-2B in vivo is discussed in the light of the observation that this enzyme is probably identical to a major calmodulin-binding protein of neural tissue termed calcineurin or CaM-BP80 [Stewart, A. A., Ingebritsen, T. S., Manalan, A., Klee, C. B., and Cohen, P. (1982) FEBS Lett. 137, 80-84].
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PMID:The protein phosphatases involved in cellular regulation. 5. Purification and properties of a Ca2+/calmodulin-dependent protein phosphatase (2B) from rabbit skeletal muscle. 630 28

Methods were developed for quantifying protein phosphatases-1, 2A, 2B and 2C in cell extracts, and these procedures were exploited to determine their tissue and subcellular distributions. In addition, the contribution of each enzyme to the total protein phosphatase activity in skeletal muscle and liver extracts towards nine proteins involved in the control of glycogen metabolism, glycolysis/gluconeogenesis, fatty acid synthesis and cholesterol synthesis was assessed. Each protein phosphatase was present at significant concentrations in skeletal muscle, heart muscle, liver, brain and adipose tissue, although the relative amounts differed considerably. In skeletal muscle, protein phosphatase-1 was the major enzyme acting on phosphorylase, glycogen synthase and phosphorylase kinase (beta-subunit), and thus was the major protein phosphatase responsible for the inactivation of glycogenolysis and stimulation of glycogen synthesis. This idea was reinforced by the observation that 50% of the protein phosphatase-1 activity was associated with the protein-glycogen complex. In the liver, protein phosphatases-1, 2A and 2C each appear to play a role in the regulation of glycogen metabolism. Protein phosphatase-1 accounted for a significant fraction of the total potential activity towards phosphorylase and glycogen synthase, and was the major phosphorylase kinase (beta-subunit) phosphatase of this tissue. In addition, it was the only protein phosphatase present in the protein-glycogen complex. Protein phosphatase 2A was also a major phosphorylase phosphatase and glycogen synthase phosphatase in this tissue. Protein phosphatase 2C was a significant glycogen synthase phosphatase in the liver, but had negligible activity toward phosphorylase or phosphorylase kinase (beta-subunit). In the absence of Ca2+, protein phosphatase 2A was the major phosphorylase kinase (alpha-subunit) phosphatase and the only inhibitor-1 phosphatase, in skeletal muscle or liver. In the presence of Ca2+, protein phosphatase 2B accounted for most of the activity towards these substrates. Protein phosphatase 2A was the major enzyme acting on L-pyruvate kinase, ATP-citrate lyase and acetyl-CoA carboxylase in rat liver, suggesting an important role in the regulation of glycolysis/gluconeogenesis and fatty acid synthesis. Protein phosphatase 2C was the major enzyme acting on hydroxymethylglutaryl-CoA (HMG-CoA) reductase and HMG-CoA reductase kinase, suggesting an important role in the regulation of cholesterol synthesis. However, the observation that 20% of the protein phosphatase-1 in liver was associated with the microsomal fraction suggests that this enzyme may also be involved in regulating HMG-CoA reductase, which is tightly associated with microsomes. The activity of protein phosphatase-1 in dilute skeletal muscle and liver extracts was just as sensitive to inhibitor-1 and inhibitor-2 as the purified enzyme. In concentrated extracts, higher concentrations of the inhibitor proteins were required and the inhibition was time-dependent...
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PMID:The protein phosphatases involved in cellular regulation. 6. Measurement of type-1 and type-2 protein phosphatases in extracts of mammalian tissues; an assessment of their physiological roles. 630 29

The steady-state interaction between protein phosphatase-1 and its two inhibitor proteins was studied in vitro at low enzyme concentrations where the assumptions of the Michaelis-Menten equation appeared to be valid. Under these conditions, and in the absence of divalent cations, inhibitor-1 behaved as a mixed inhibitor using phosphorylase alpha as a substrate, whereas inhibitor-2 was a competitive inhibitor. The results demonstrate that inhibitor-1 and inhibitor-2 do not interact with protein phosphatase-1 in an identical manner. Inhibitor-1 was only a substrate for protein phosphatase-1 in the presence of Mn2+, and its dephosphorylation was inhibited competitively by inhibitor-2 (Kis = 8 nM). Inhibitor-1 did not inhibit its own dephosphorylation in the presence of Mn2+. Its Km as a substrate (190 nM) was very much higher than its Ki as an inhibitor (1.5-7.5 nM). The results are consistent with a model in which a single binding site for inhibitor-1 is present on protein phosphatase-1, distinct from the binding site for phosphorylase alpha. It is envisaged that the binding of inhibitor-1 to this site not only inhibits the dephosphorylation of other substrates but permits access of its phosphothreonine to the same catalytic group(s) responsible for the dephosphorylation of other substrates. G-substrate, a protein phosphorylated exclusively on threonine residues, did not inhibit the dephosphorylation of phosphorylase alpha and its dephosphorylation was potently inhibited by inhibitor-1 or inhibitor-2. The role of the phosphothreonine residue in inhibitor-1 is discussed in the light of these results.
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PMID:A kinetic analysis of the effects of inhibitor-1 and inhibitor-2 on the activity of protein phosphatase-1. 630 30

Previous studies indicated that the species of type 1 and type 2 protein phosphatases (PP-1, PP-2) in rabbit reticulocytes are similar to those of rabbit skeletal muscle and rabbit liver. Reticulocyte PP-1 was found to be selectively inhibited by the heat stable protein phosphatase inhibitor-2 (I-2) from rabbit skeletal muscle. Of interest was the observation that muscle I-2 appeared to regulate protein synthesis in reticulocyte lysates by inhibiting an eIF-2 alpha phosphatase with type 1 properties. In this study we have characterized reticulocyte inhibitor-2 (I-2) and find that its properties are similar to those of skeletal muscle I-2. (i) Both I-2 species are stable to boiling and to acid treatment, and have similar chromatographic profiles on DEAE-cellulose and on Blue Sepharose CL-6B. (ii) The two I-2 species migrate electrophoretically as 26-28,000 dalton polypeptides in SDS-acrylamide gels. (iii) Both skeletal muscle I-2 and reticulocyte I-2 selectively inhibit isolated reticulocyte PP-1 and endogenous PP-1 in the lysate. (iv) Reticulocyte I-2 co-chromatographs with PP-1 on DEAE-cellulose, and over 90% of lysate I-2 can be isolated from this partially purified PP-1. (v) Both inhibitor-2 species are active in the unphosphorylated state, but upon addition to lysates, both are phosphorylated by endogenous cAMP-independent protein kinase(s). In addition a preliminary analysis using a polyclonal antibody against muscle inhibitor-1 confirmed biochemical analyses which indicate that lysates are deficient in inhibitor-1.
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PMID:Partial purification and characterization of heat stable protein phosphatase inhibitor-2 from rabbit reticulocytes. 631 Nov 96

The small molecular weight (+/- 9,000) heat stable deinhibitor protein, isolated from dog liver, not only protects the multisubstrate protein phosphatase from inhibition by inhibitor-1 and the modulator protein. It prevents the conversion of the active enzyme to the ATP,Mg-dependent enzyme form brought about by the modulator protein, and also affects the activation of the ATP,Mg-dependent protein phosphatase, probably by stabilizing the enzyme in its active conformation during the reversible activation by protein kinase FA. Therefore the deinhibitor protein could be an important factor in the process of glycogen synthesis, which requires glycogen synthase and phosphorylase as dephosphorylated enzymes.
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PMID:Role of the deinhibitor protein in the interconversion of the ATP,Mg-dependent protein phosphatase. 631 9

Three forms of protein phosphatase-1 were isolated from rabbit skeletal muscle that had Mr values of 37 000, 34 000 and 33 000 determined by sodium dodecyl sulphate (SDS) gel electrophoresis. Each species dephosphorylated the beta-subunit of phosphorylase kinase very much faster than the alpha-subunit, was inhibited by inhibitors 1 and 2 with equal potency, and was converted to a form dependent on glycogen synthase kinase-3 and Mg-ATP for activity by incubation with inhibitor-2. Digestion with cyanogen bromide or Staphylococcus aureus proteinase followed by SDS gel electrophoresis showed a very similar pattern of cleavage products for all three forms. The Mr-37 000 and Mr-34 000 species were converted to the Mr-33 000 form by incubation with chymotrypsin. It is concluded that the Mr-33 000 and Mr-34 000 forms are derived from the Mr-37 000 component by limited proteolysis. Conversion of the Mr-37 000 to the Mr-33 000 form was accompanied by a two-fold increase in activity, indicating that an Mr-4000 fragment at one end of the polypeptide is an inhibitory domain that decreases enzyme activity. The catalytic subunit of protein phosphatase 2A from rabbit skeletal muscle had an Mr of 36 000 determined by SDS gel electrophoresis and its specific activity (3 kU/mg) was much lower than that of the Mr-37 000 (15-20 kU/mg) or Mr-33/34 000 (40-50 kU/mg) forms of protein phosphatase-1. It dephosphorylated the alpha-subunit of phosphorylase kinase 4-5-fold faster than the beta-subunit, was unaffected by inhibitor-1 or inhibitor-2, and preincubation with the latter protein did not result in the production of a glycogen synthase kinase-3 and Mg-ATP-dependent form of the enzyme. Digestion with chymotrypsin did not alter the electrophoretic mobility of protein phosphatase 2A under conditions that caused quantitative conversion of the Mr-37 000 form of protein phosphatase-1 to the Mr-33 000 species. Digestion with cyanogen bromide or S. aureus proteinase, followed by SDS gel electrophoresis, showed a quite different pattern of cleavage products to those observed with protein phosphatase 1. Antibody to protein phosphatase-2A raised in sheep did not cross-react with any of the forms of protein phosphatase-1, as judged by immunoelectrophoretic and immunotitration experiments. It is concluded that protein phosphatase-1 and protein phosphatase-2A are distinct gene products.
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PMID:The catalytic subunits of protein phosphatase-1 and protein phosphatase 2A are distinct gene products. 631 40

Heparin inhibited the dephosphorylation of rabbit skeletal muscle or liver phosphorylase a by protein phosphatase-1. Other glycosaminoglycans (chondroitin sulfates) and their constituents were found to be without effect. The chromatography of a partially purified phosphatase preparation on heparin-Sepharose CL-6B resulted in a fraction that did not bind to the matrix and its activity was not inhibited by heparin or inhibitor-1. The phosphatase bound to heparin-Sepharose was eluted by 0.2 M NaCl and was inhibited by heparin or inhibitor-1.
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PMID:Heparin inhibits the activity of protein phosphatase-1. 632 37

The deinhibitor protein, which protects the multisubstrate protein phosphatase from inhibition by inhibitor-1 and the modulator protein, stabilizes the enzyme in its active conformation preventing its conversion to the ATP,Mg-dependent enzyme form and controls the dephosphorylation of inhibitor-1, was shown to exist under active and inactive forms. It can be inactivated by the catalytic unit of the cyclic AMP-dependent protein kinase and reactivated by an inhibitor-1 phosphatase, also described as histone-H1 ("latent") stimulated protein phosphatase.
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PMID:The deinhibitor protein: regulation by phosphorylation-dephosphorylation. 632 67

An inhibitor (inhibitor-1) of phosphorylase a phosphatase has been identified in rat epididymal fat pads. This heat-stable, acid-soluble protein only exhibits phosphatase inhibitory activity when it itself is phosphorylated. Inhibitor-1 in rat adipose tissue migrates at 32,000 Da on sodium dodecyl sulfate-polyacrylamide gels, and at 64,000 Da on gel filtration. Exposure of fat pads to insulin (1 milliunit/ml) resulted in a 50% decrease in inhibitor-1 activity, compared to control (p less than 0.001). Isoproterenol (10(-6) M) caused a 25% increase in inhibitor-1 activity (p less than 0.05). Electrophoresis of heat-stable proteins prepared from hormone-treated 32P-labeled fat cells showed that insulin caused a dephosphorylation of the 32,000 Da phosphoprotein by 30% (p less than 0.01), whereas isoproterenol stimulated 32P incorporation in this protein by 35% compared to control (p less than 0.05). Thus, insulin appears to dephosphorylate and inactivate inhibitor-1, and might thereby result in an increase of protein phosphatase activity. Insulin regulation of inhibitor-1 is a mechanism which may underlie other of insulin's effects in adipose tissue, such as the activation of glycogen synthase.
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PMID:Hormonal regulation of protein dephosphorylation. Identification and hormonal regulation of protein phosphatase inhibitor-1 in rat adipose tissue. 634 43


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