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)

Cholesterol metabolism and steroidogenesis in the outer (zona fasciculata/glomerulosa) and inner (zona reticularis) zones of the adrenal cortex were examined in the guinea pig. It is known from previous studies that the content of cholesterol in the inner zone is considerably lower than that in the outer zone, although basal low density lipoprotein (LDL) receptor activity is similar in the two zones. To further explore cholesterol metabolism in the guinea pig adrenal cortex, the activity of 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase, the rate-limiting step in cholesterol synthesis, has been examined for which this paper forms the initial report. It was found that the basal specific activity of HMG-CoA reductase was similar in the outer and inner adrenocortical zones (approximately 230 pmol mevalonate formed/min X mg microsomal protein). The administration of ACTH caused 4- and 5-fold increases in HMG-CoA reductase activity in the outer and inner zones, respectively. In fact, the increase in HMG-CoA reductase activity with ACTH treatment was always greater for the inner zone than for the outer zone. This is in contrast to LDL receptor activity, which does not increase in the inner zone as it does in the outer zone with ACTH treatment. When dexamethasone was administered, HMG-CoA reductase activity decreased in the outer zone by about 50%, while there was no change in reductase activity in the inner zone. The latter finding is similar to what happens with LDL receptor activity during dexamethasone administration. Why suppression of endogenous ACTH had no effect on HMG-CoA reductase activity in the inner zone while exogenous ACTH administration caused a marked increase in enzyme activity is not clear, but may be related to phosphorylation/dephosphorylation mechanisms. Based on the use of sodium fluoride in solutions to block HMG-CoA reductase phosphatase, evidence is presented which indicates that a pharmacological dose of ACTH alters the phosphorylation/dephosphorylation status of HMG-CoA reductase in the inner adrenocortical zone, but not in the outer cortical zone.
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PMID:Differential activity of 3-hydroxy-3-methylglutaryl coenzyme A reductase in zones of the adrenal cortex. 302 27

The major Mn2+-activated phosphoprotein phosphatase of the human erythrocyte has been purified to homogeneity from the cell hemolysate. It is sensitive to both inhibitors 1 and 2 of rabbit skeletal muscle, preferentially dephosphorylates the beta subunit of the phosphorylase kinase, and dephosphorylates a broad range of substrates including phosphorylase a, p-nitro-phenyl phosphate, phosphocasein, the regulatory subunit of cyclic AMP-dependent protein kinase, and both spectrin (Km = 10 microM) and pyruvate kinase (Km = 18 microM) purified from the human erythrocyte. The purified enzyme is stimulated by Mn2+ and to a lesser extent by higher concentrations of Mg2+. The purification procedure was selected to avoid any change in molecular weight, hence subunit composition, between the crude and purified enzyme. Maintenance of the original structure is demonstrated by non-denaturing gel electrophoresis and gel filtration chromatography. Gel filtration of the purified holoenzyme shows a single active component with a Stokes radius of 58 A at a molecular weight position of 180,000. Sedimentation velocity in a glycerol gradient gives a value of 6.1 for S20, w. Together these data indicate a molecular weight of about 135,000. Two bands of equal intensity appear on sodium dodecyl sulfate-gel electrophoresis at molecular weights of 61,700 and 36,300, suggesting a subunit composition of two 36,000 and one 62,000 subunits. The 36-kDa catalytic subunit can be isolated by freezing and thawing the holoenzyme or by hydrophobic chromatography of the holoenzyme. The catalytic subunit shows unchanged substrate and inhibitor specificity but altered metal ion activation.
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PMID:Purification and characterization of a high molecular weight type 1 phosphoprotein phosphatase from the human erythrocyte. 302 59

The catalytic subunit of the branched-chain alpha-keto acid dehydrogenase (BCKDH) phosphatase (Damuni, Z., Merryfield, M.L., Humphreys, J.S., and Reed, L.J., (1984) Proc. Natl. Acad. Sci. U.S.A. 81, 4335-4338) has been purified over 50,000-fold from extracts of bovine kidney mitochondria. The apparently homogeneous protein consists of a single polypeptide chain with an apparent Mr = approximately 33,000 as estimated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. BCKDH phosphatase, with an apparent Mr = 460,000, was dissociated to its catalytic subunit with no apparent change in activity, at an early stage in the purification procedure by treatment with 6 M urea. The specific activity of the catalytic subunit was 1,500-2,500 units/mg. The catalytic subunit exhibited approximately 10% maximal activity with 32P-labeled pyruvate dehydrogenase complex but was inactive with phosphorylase a and with p-nitrophenyl phosphate. The catalytic subunit, like the Mr = 460,000 species, was inhibited by nanomolar concentrations of BCKDH phosphatase inhibitor protein, was unaffected by protein phosphatase inhibitor 1 and inhibitor 2, and was inhibited by nucleoside tri- and diphosphates but not by nucleoside monophosphates.
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PMID:Purification and properties of the catalytic subunit of the branched-chain alpha-keto acid dehydrogenase phosphatase from bovine kidney mitochondria. 303 Oct 42

A divalent cation-independent and spermine-stimulated phosphatase (protein phosphatase SP) that is active toward the phosphorylated pyruvate dehydrogenase complex has been purified about 15,000-fold to near homogeneity from extracts of bovine kidney mitochondria. Half-maximal stimulation, 1.5- to 3-fold at pH 7.0-7.3, occurred at 0.5 mM spermine. Protein phosphatase SP exhibited an apparent Mr = 140,000-170,000 as estimated by gel-filtration chromatography on Sephacryl S-300. Two major subunits, with apparent Mr = 60,000 and 34,000, were detected by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Gel-permeation chromatography of protein phosphatase SP on Sephacryl S-200 in the presence of 6 M urea and 1.4 M NaCl increased its activity 3- to 6-fold and was accompanied by conversion to the catalytic subunit with an apparent Mr = approximately 34,000. Protein phosphatase SP was inactive with p-nitrophenyl phosphate and was not inhibited by protein phosphatase inhibitor 1, inhibitor 2, or the protein inhibitor of branched-chain alpha-keto acid dehydrogenase phosphatase. Protein phosphatase SP was inhibited by sheep antibody to the catalytic subunit of protein phosphatase 2A from rabbit skeletal muscle. It appears that protein phosphatase SP is related to protein phosphatase 2A.
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PMID:Purification and characterization of a divalent cation-independent, spermine-stimulated protein phosphatase from bovine kidney mitochondria. 303 Oct 43

C-protein purified from chicken cardiac myofibrils was phosphorylated with the catalytic subunit of cAMP-dependent protein kinase to nearly 3 mol [32P]phosphate/mol C protein. Digestion of 32P-labeled C-protein with trypsin revealed that the radioactivity was nearly equally distributed in three tryptic peptides which were separated by reversed-phase HPLC. Fragmentation of 32P-labeled C-protein with CNBr showed that the isotope was incorporated at different ratios in three CNBr fragments which were separated on polyacrylamide gels in the presence of sodium dodecyl sulfate. Phosphorylation was present in both serine and threonine residues. Incubation of 32P-labeled C-protein with the catalytic subunit of protein phosphatase 1 or 2A rapidly removed 30-40% of the [32P]phosphate. The major site(s) dephosphorylated by either one of the phosphatases was a phosphothreonine residue(s) apparently located on the same tryptic peptide and on the same CNBr fragment. CNBr fragmentation also revealed a minor phosphorylation site which was dephosphorylated by either of the phosphatases. Increasing the incubation period or the phosphatase concentration did not result in any further dephosphorylation of C-protein by phosphatase 1, but phosphatase 2A at high concentrations could completely dephosphorylate C-protein. These results demonstrate that C-protein phosphorylated with cAMP-dependent protein kinase can be dephosphorylated by protein phosphatases 1 and 2A. It is suggested that the enzyme responsible for dephosphorylation of C-protein in vivo is phosphatase 2A.
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PMID:Dephosphorylation of cardiac myofibril C-protein by protein phosphatase 1 and protein phosphatase 2A. 303 83

Two forms of protein phosphatase which dephosphorylate cardiac myosin or myosin light chains and the inhibitory subunit of cardiac troponin were purified from bovine cardiac muscle. The enzymes were composed of subunits of Mr = 63,000, 55,000, and 38,000 in a 1:1:1 molar ratio (PT-1) or Mr = 63,000 and 38,000 in a 1:1 molar ratio (PT-2). Native gel electrophoresis and sucrose gradient sedimentation indicated that activity toward all three substrates was due to a single enzyme species. A monoclonal antibody and polyclonal antiserum directed against an Mr = 38,000 protein phosphatase from this tissue specifically reacted with the Mr = 38,000 subunit of PT-1 and PT-2. The specificity of antibodies for the Mr = 38,000 subunit indicated that it was distinct from the other subunits. The Mr = 63,000 subunits of PT-1 and PT-2 were identical based on mobility on sodium dodecyl sulfate gels and one-dimensional peptide maps. Specificity of antiserum against the Mr = 55,000 subunit of PT-1 showed that this subunit was a distinct protein and not derived from the Mr = 63,000 subunit by proteolysis. PT-2 but not PT-1 could interact with antiserum against the Mr = 38,000 catalytic subunit in competitive immunoassays indicating that the presence of the Mr = 55,000 subunit may alter or mask antigenic site(s). Analysis of the enzymatic properties of PT-1 and PT-2 showed that PT-2 had higher activity with myosin, myosin light chains, and phosphorylase while PT-1 had higher activity with troponin. The results indicate that the presence of the Mr = 55,000 subunit may alter the enzymatic properties of the catalytic subunit.
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PMID:Cardiac contractile protein phosphatases. Purification of two enzyme forms and their characterization with subunit-specific antibodies. 303 61

A protein tyrosine kinase with an apparent Mr of 60,000 was highly purified from bovine spleen and used to phosphorylate poly(Glu, Tyr) (4:1) on tyrosine residues for the study of phosphotyrosyl protein phosphatases from this tissue. About 70% of the phosphotyrosyl protein phosphatase activity in extracts of bovine spleen was adsorbed on DEAE-Sepharose. Chromatography of the eluted phosphotyrosyl protein phosphatases on phosphocellulose indicated the presence of at least two species, one that did not bind to the phosphocellulose and a second species that did bind and was eluted at about 0.5 M NaCl. The phosphatase that did not bind to phosphocellulose was further purified by successive chromatography on poly(L-lysine)-Sepharose, L-tyrosine-agarose, poly(Glu,Tyr)-Sepharose, and Sephacryl S-200. The enzyme had an apparent Mr of 50,000 as estimated by gel filtration and 52,000 as estimated by NaDodSO4- polyacrylamide gel electrophoresis. The phosphatase exhibited a pH optimum of 6.5-7.0, was inhibited by Zn2+ and vanadate ions, and was stimulated by EDTA. Sodium fluoride and sodium pyrophosphate, inhibitors of phosphoseryl protein phosphatases, had no effect on the enzyme. Protein inhibitors of type 1 phosphoseryl/threonyl phosphatase were also ineffective.
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PMID:Identification and purification of a cytosolic phosphotyrosyl protein phosphatase from bovine spleen. 303 1

A protein kinase activity responsible for the in vitro phosphorylation of at least six endogenous polypeptides including the large subunit of the ribulose-1,5-bisphosphate carboxylase/oxygenase (EC 4.1.1.39) is present in the stroma (3000 X g supernatant, S30) of spinach chloroplasts. The phosphorylation of the ribulose-1,5-bisphosphate carboxylase/oxygenase large subunit is strongly enhanced when sodium fluorure is used as a protein phosphatase inhibitor. Phosphorylation occurs on threonine and serine residues. The protein kinase involved is not Ca2+-dependent. There is also evidence for a protein phosphatase activity which suggests a coupled regulation by a phosphorylation-dephosphorylation process. The phosphorylating activity is drastically reduced when S30 is prepared from leaves harvested after a dark period. Phosphorylation of the ribulose-1,5-bisphosphate carboxylase/oxygenase large subunit is not related to its own synthesis. The in vitro phosphorylation of the glyceraldehyde-3-phosphate dehydrogenase (EC 1.2.1.13) is also demonstrated.
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PMID:Phosphorylation in vitro of the large subunit of the ribulose-1,5-bisphosphate carboxylase and of the glyceraldehyde-3-phosphate dehydrogenase. 303 22

The heterogeneity of phosphoprotein phosphohydrolase--Fpf in cellular free spleen extracts of pigs may be determined by sodium fluoride inhibition. NaF concentration of 5 X 10(-3) mol/l divides Fpf into 3 groups and shows a wide inhibition range from 15 to 85% of the initial activity of the enzyme. Naf concentration of 5 X 10(-4)mol/l stops Fpf activity in the range from 10 to 65% and divides it into two groups. To classify the studied material into Fpf phenotypes, fluoride quotient index--WIF has been proposed which expresses the relationship between the percentage of the inhibition caused by NaF at a concentration 5 X 10(-3) mol/l and that of the inhibition caused by NaF at a concentration of 5 X 10(-4) mol/l in the reaction mixture and in the measurement conditions described in the methods. Five groups with the following numerical values of WIF have been distinguished: 1.15 less than or equal to WIF less than 1.40-44%--group I; 1.50 less than or equal to WIF less than 1.80-20%--group II; 1.90 less than or equal to WIF less than 2.10-16%--group III; 2.20 less than or equal to WIF less than 2.50-16%--group IV; and WIF = 3-4%--group V.
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PMID:[Demonstration and classification of heterogeneity of phosphoprotein phosphohydrolase in swine spleen extracts based on sodium fluoride inhibition]. 303 62

Phosphoproteins in the CNS of the nudibranch mollusc, Hermissenda crassicornis, were analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and autoradiography. After preincubation in artificial sea-water containing 32P, nervous systems were exposed to elevation of external K+ (100 or 300 mM) for a period (e.g., 30 min) approximating a period of depolarization which occurs during classical conditioning. Elevated external K+ was found to change the state of phosphorylation of three distinct proteins (Mr 56,000, 25,000, and 20,000) in three distinct ways without consistently changing that of any other proteins. Phosphorylation of an Mr 56,000 protein was increased by high K+ about twofold only in the presence of external Ca2+ [( Ca2+]o). Phosphorylation of Mr 25,000 protein, on the other hand, was decreased up to 10-fold by high K+, irrespective of the level of [Ca2+]o. The effect of depolarization on Mr 25,000 protein phosphorylation most likely represents dephosphorylation rather than proteolysis. This interpretation is consistent with the observations that (a) reappearance of the Mr 25,000 protein occurred in the presence of the protein synthesis inhibitors cycloheximide, puromycin, or anisomycin, and (b) the Hermissenda nervous system apparently contains a NaF- and EDTA-sensitive protein phosphatase capable of dephosphorylating Mr 25,000 protein. High K+ also reduced Mr 20,000 protein phosphorylation which was dependent on [Ca2+]o even in normal low K+ (10 mM) medium. Removal of [Ca2+]o enhanced reduction of Mr 20,000 phosphorylation due to the high K+ treatment. Interestingly, reduction of the Mr 25,000 protein phosphorylation was long-lasting, i.e., its phosphorylation did not fully recover to a control level for at least 30 min after the high K+ conditions had been removed.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Transient and persistent depolarization-induced changes of protein phosphorylation in a molluscan nervous system. 327 16


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