Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.3.16 (calcineurin)
 17,112 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The mechanism of FK506 immunosuppression has been proposed to proceed by formation of a tight-binding complex with the intracellular 12-kDa FK506-binding protein (FKBP12). The FK506-FKBP12 complex then acts as a specific high-affinity inhibitor of the intracellular protein phosphatase PP2B (calcineurin), interrupting downstream dephosphorylation events required for T-cell activation. Site-directed mutagenesis of many of the surface residues of FKBP12 has no significant effect on its affinity for calcineurin. We have identified, however, three FKBP12 surface residues (Asp-37, Arg-42, and His-87) proximal to a solvent-exposed segment of bound FK506 that may be direct contacts in the calcineurin complex. Site-directed mutagenesis of two of these residues decreases the affinity of FKBP12-FK506 for calcineurin (Ki) from 6 nM for wild-type FKBP12 to 3.7 microM for a R42K/H87V double mutant, without affecting the peptidylprolyl isomerase activity or FK506 affinity of the mutant protein. These FKBP12 mutations along with several substitutions on FK506 known to affect calcineurin binding form a roughly 100-A2 region of the FKBP12-FK506 complex surface that is likely to be within the calcineurin binding site.
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PMID:Charged surface residues of FKBP12 participate in formation of the FKBP12-FK506-calcineurin complex. 137 88

Calmodulin-dependent phosphodiesterase was purified to apparent homogeneity from the total calmodulin-binding fraction of bovine heart in a single step by immunoaffinity chromatography. The isolated enzyme had significantly higher affinity for calmodulin than the bovine brain 60-kDa phosphodiesterase isozyme. The cAMP-dependent protein kinase was found to catalyze the phosphorylation of the purified cardiac calmodulin-dependent phosphodiesterase with the incorporation of 1 mol of phosphate/mol of subunit. The phosphodiesterase phosphorylation rate was increased severalfold by histidine without affecting phosphate incorporation into the enzyme. Phosphorylation of phosphodiesterase lowered its affinity for calmodulin and Ca2+. At constant saturating concentrations of calmodulin (650 nM), the phosphorylated calmodulin-dependent phosphodiesterase required a higher concentration of Ca2+ (20 microM) than the nonphosphorylated phosphodiesterase (0.8 microM) for 50% activity. Phosphorylation could be reversed by the calmodulin-dependent phosphatase (calcineurin), and dephosphorylation was accompanied by an increase in the affinity of phosphodiesterase for calmodulin.
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PMID:Phosphorylation and characterization of bovine heart calmodulin-dependent phosphodiesterase. 164 4

Activity of crude histidine decarboxylases (HisDC) from the hypothalamus and the lungs, was markedly reduced by incubating with ATP.Mg, cAMP and cAMP-dependent protein kinase A, whereas activity of the crude glandular stomach enzyme changed only slightly under equal condition. The omission of one of these components failed to reduce HisDC activity by as much as the complete system. Addition of bovine heart (type II) or rat cerebellum protein kinase A (types I and II) inhibitor to the assay prevented enzyme inactivation; moreover, protein kinase A inhibitors permitted moderate activation under phosphorylating and control conditions. Cytosolic hypothalamus HisDC activity was elevated 2-2.2-fold by incubating the cytosol for 15 min in the presence of MnCl2, a known stimulator of phosphoprotein phosphatase; this was prevented when 20 mM NaF, a common inhibitor of phosphoprotein phosphatase, was added to the cytosol. The apparent Km of ATP.Mg-treated hypothalamus HisDC for histidine was elevated 5-10-fold compared to controls, whereas the Vmax was approximately the same. Under this condition, the Km was calculated as high as 0.5-2.2 mM (depending on phosphorylating conditions), while controls had a Km of 0.1-0.3 mM (depending on the initial phosphorylating states). Addition of rabbit muscle (type I), bovine heart (type II) or rat cerebellum (types I and II) inhibitor of protein kinase A, to the phosphorylating mixture, abolished the difference in Km between control and ATP.Mg-treated HisDC. Moreover, rat cerebellum protein kinase A inhibitors increased Vmax to above the control level; while 20 mM NaF (inhibitor of phosphoprotein phosphatase) decreased Vmax to approximately one half of that of the controls. These data indicate that HisDC activity in the hypothalamus and the lungs, but not in the stomach, is affected in oppositely by protein kinase A and phosphoprotein phosphatases.
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PMID:Possible regulation of hypothalamus and lung histidine decarboxylase activity by cAMP-dependent protein kinase. 201 19

ARPP-21 (cAMP-regulated phosphoprotein, Mr = 21,000 as determined by SDS/PAGE) is a major cytosolic substrate for cAMP-stimulated protein phosphorylation in dopamine-innervated regions of rat CNS (Walaas et al., 1983c). This acidic phosphoprotein has now been identified in bovine caudate nucleus cytosol and purified to homogeneity from this source. The purification procedure involved diethylaminoethyl-cellulose chromatography, ammonium sulfate fractionation, phenyl-Sepharose CL-4B chromatography, and fast protein liquid chromatography using Mono Q anion-exchange resin. Two isoforms of ARPP-21 (ARPP-21A and ARPP-21B) were obtained, which were present in approximately equal amounts in the starting material. ARPP-21A was purified 2610-fold with a final yield of 20% and ARPP-21B was purified 2940-fold with a final yield of 21%. The purified preparations of both isoforms were judged to be homogenous by SDS/PAGE. ARPP-21A and ARPP-21B yielded identical 2-dimensional thin-layer tryptic phosphopeptide maps, identical amino acid compositions and closely related, but distinct, reverse-phase high-pressure liquid chromatograms of tryptic digests. The amino acid composition of ARPP-21 showed a high content of glutamic acid/glutamine, and no methionine, tryptophan, tyrosine, phenylalanine, or histidine. ARPP-21 was stable to heat denaturation and to 50% (vol/vol) ethanol treatment and was partially soluble at pH 2. The Mr determined for ARPP-21 by SDS/PAGE was 21,000. The Stokes radius of ARPP-21 was 26.3 A, and the sedimentation coefficient of ARPP-21 was 1.3 S; these values yield a calculated molecular mass of 13,700 Da and a frictional ratio of 1.7, indicative of an elongated tertiary structure. ARPP-21 was an excellent substrate for cAMP-dependent protein kinase and was either not phosphorylated or only poorly phosphorylated by cGMP-dependent protein kinase, calcium/calmodulin-dependent protein kinase I, calcium/calmodulin-dependent protein kinase II, casein kinase II, or protein kinase C. The purified catalytic subunit of cAMP-dependent protein kinase catalyzed the incorporation of 1.2 mol phosphate/mol purified ARPP-21. Phosphorylation occurred exclusively on seryl residues. Phospho-ARPP-21 was dephosphorylated effectively by protein phosphatase-1 or -2A, but not by protein phosphatase-2B or -2C. Rabbit polyclonal and mouse monoclonal antibodies were prepared to purified ARPP-21. These antibodies specifically immunoprecipitated ARPP-21, which was found to be highly enriched in the caudate nucleus and putamen of monkey brain.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:ARPP-21, a cyclic AMP-regulated phosphoprotein enriched in dopamine-innervated brain regions. I. Purification and characterization of the protein from bovine caudate nucleus. 253 84

A phosphoprotein phosphatase (PPase: EC 3.1.3.2) was recently purified from rat epidermis. The enzyme dephosphorylates phosphoprotein, and its properties, such as pH optimum, inhibitor spectrum, and Fe2+ activation, differ from those of other soluble phosphatases. We investigated in 2-day-old rat skin the distribution of immunologically detectable PPase and intracellular localization of PPase activity. The reaction of rabbit monospecific anti-PPase IgG was identified in granular and cornified cells by the avidin-biotin complex method. For activity staining, basic principles of the Gomori lead-salt method and azo dye technique with the substrates p-nitrophenylphosphate (p-NPP) and alpha-naphthyl phosphate (NP), respectively, were modified according to the biochemical properties of PPase activity which is resistant to formalin, Na tartrate, and NaF. Activity was detectable in granular cells including keratohyalin granules and the lower strata of cornified cells. The activity was inhibited by 1 mM CuSO4 and enhanced by a mixture of 0.5 mM FeSO4 and 1 mM ascorbic acid. We consider that PPase may be involved in dephosphorylation of histidine-rich proteins in granular and cornified cells and may play a key role in intracellular catabolism associated with epidermal cell differentiation.
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PMID:Immuno- and enzyme-histochemical detection of phosphoprotein phosphatase in rat epidermis. 253 8

The physico-chemical properties of phosphoprotein phosphatase (EC 1.3.1.16) from bovine spleen cell nuclei were investigated. The enzyme was shown to possess a wide substrate specificity and to catalyze dephosphorylation of phosphocasein, ATP, ADP and p-nitrophenylphosphate (pNPP). The Km values for ATP, ADP and pNPP are 0.44, 0.43 and 1.25 mM, respectively. The molecular weight of the enzyme as determined by gel filtration on Sephadex G-75 and electrophoresis in polyacrylamide gel of different concentrations is approximately 33 000. SDS-polyacrylamide gel electrophoresis revealed two protein bands with Mr 12 000 and 18 000. The enzyme molecule predominantly contains acidic amino acid residues, two free SH-groups and two disulphide bonds. Phosphoprotein phosphatase is a glycoprotein with the carbohydrate content of about 22%, and has an additional absorption maximum at 560 nm. The enzyme is competitively inhibited by ammonium molybdate (Ki = 0.37 microM) and non-competitively by sodium fluoride (Ki = 1.3 mM). Incubation of phosphoprotein phosphatase with 2 mM phenylmethylsulfonylfluoride (PMSF) for 25 hours resulted in a approximately 46% loss of the enzyme activity. Ammonium molybdate, sodium fluoride and PMSF reversibly inhibit the enzyme. Modification of aminoacid SH-groups, NH2-groups and histidine led to a decrease of the enzyme activity. Incubation of phosphoprotein phosphatase with [gamma-33P]ATP resulted in the incorporation of 0.33 mol of 33P per mol of the enzyme. The mechanism of the enzyme-catalyzed hydrolysis of the phosphoester bond is discussed.
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PMID:[Phosphoprotein phosphatases from cell nuclei of the bovine spleen: physico-chemical properties]. 299 59

G-substrate is a protein present in cerebellum which is a major endogenous substrate for cyclic GMP-dependent protein kinase, and one of the few known proteins phosphorylated more effectively by cyclic GMP-dependent protein kinase than by cyclic AMP-dependent protein kinase. G-substrate has been shown to be phosphorylated on two threonine residues, and the amino acid sequences surrounding these sites, which correspond to about 30% of the primary structure, are: Leu-Asn-Val-Glu-Ser-Asp-Gln-Lys-Lys-Pro-Arg-Arg-Lys-Asp-Thr(P)-Pro-Ala-Leu-His- Ile-Pro-Pro-Phe-Ile-Ser-Gly-Val-Ile-Ser-Gln-Asn SITE 1 Leu-His-Asn-Thr-Asp-Leu-Glu-Gln-Gln-Lys-Pro-Arg-Arg-Lys-Asp-Thr(P)-Pro-Ala-Leu- His-Thr-Ser-Pro-Phe-Gln-Ser-Gly-Val-Arg SITE 2 The amino acid sequences surrounding the phosphorylated residues show 18 identities over a sequence of 26 residues, and suggest that G-substrate contains an internal gene duplication. Site-1 appears to be located 17 residues from the COOH terminus of the protein. Site 1 and site 2 are phosphorylated at similar rates by cyclic GMP-dependent protein kinase. In contrast, cyclic AMP-dependent protein kinase phosphorylates site 1 4-fold more rapidly than site 2. A decapeptide sequence surrounding the phosphothreonine residues in G-substrate shows 5 identities with that surrounding the phosphothreonine residue in protein phosphatase inhibitor 1. Inhibitor 1, a specific substrate for cyclic AMP-dependent protein kinase, also resembles G-substrate in its physical properties. The possible function of G-substrate and the molecular specificities of cyclic AMP-dependent protein kinase and cyclic GMP-dependent protein kinase are discussed in the light of these results.
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PMID:A specific substrate from rabbit cerebellum for guanosine-3':5'-monophosphate-dependent protein kinase. III. Amino acid sequences at the two phosphorylation sites. 625 72

Mitochondria from a variety of sources possess a regulated inner membrane channel, the permeability transition pore (MTP), which is responsible for the 'permeability transition', a sudden permeability increase to solutes with molecular masses < or = 1500 Da, most easily observed after Ca2+ accumulation. The MTP is a voltage-dependent channel blocked by cyclosporin A with Ki in the nanomolar range. The MTP open probability is regulated by both the membrane potential and matrix pH. The probability of pore opening increases as the membrane is depolarized, while it decreases as matrix pH is decreased below 7.3 through reversible protonation of histidine residues. Many physiological and pathological effectors, including Ca2+ and ADP, modulate MTP operation directly through changes of the gating potential rather than indirectly through changes of the membrane potential (Petronilli, V., Cola, C., Massari, S., Colonna, R. and Bernardi, P. (1993) J. Biol. Chem. 268, 21939-21945). Here we present recent work from our laboratory indicating that (i) the voltage sensor comprises at least two vicinal thiols whose oxidation-reduction state affects the MTP gating potential; as the couple becomes more oxidized the gating potential increases; conversely, as it becomes more reduced the gating potential decreases; (ii) that MTP opening is fully reversible, as mitochondria maintain volume homeostasis through several cycles of pore opening/closure; and (iii) that the mechanism of MTP inhibition by cyclosporin A presumably involves a mitochondrial cyclophilin but does not utilize a calcineurin-dependent pathway.
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PMID:Regulation of the permeability transition pore, a voltage-dependent mitochondrial channel inhibited by cyclosporin A. 752 Dec 12

Two subunits of protein phosphatase 2A (PP2A) have been shown previously to bind to the small t and middle T antigens (ST and MT, respectively) of polyomavirus. To determine sequences important for binding of PP2A to ST and MT, we first constructed a series of ST mutants in regions known to be important for biological activity of ST and MT. Several mutations in two small regions just amino terminal to the Cys-X-Cys-X-X-Cys motifs of ST and MT abolished PP2A binding to ST in vitro. Parallel mutations were constructed in MT to investigate the role of PP2A binding in the function of polyomavirus MT. Wild-type and mutant MT proteins were stably expressed in NIH 3T3 cells and analyzed (i) for their ability to induce transformation and (ii) for associated cellular proteins and corresponding enzymatic activities previously described as associating with wild-type MT. A number of the mutant MTs were found to be defective in binding of PP2A as assayed by coimmunoprecipitation. In contrast, a deletion of the highly conserved stretch of amino acids 42 to 47 (His-Pro-Asp-Lys-Gly-Gly) in the ST-MT-large T antigen common region did not affect PP2A binding to MT. MT mutants defective for PP2A binding were also defective in transformation, providing further evidence that association with PP2A is important for the ability of MT to transform cells. All mutants which were impaired for PP2A binding were similarly or more dramatically impaired for associated protein and lipid kinase activities, supporting the possibility that PP2A binding is necessary for the formation and/or stability of an MT-pp60c-src complex.
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PMID:Identification of regions in polyomavirus middle T and small t antigens important for association with protein phosphatase 2A. 753 74

The 12- and 13-kDa FK506 binding proteins (FKBP12 and FKBP13) are cis-trans peptidyl-prolyl isomerases that bind the macrolides FK506 (Tacrolimus) and rapamycin (Sirolimus). The FKBP12.FK506 complex is immunosuppressive, acting as an inhibitor of the protein phosphatase calcineurin. We have examined the role of the key surface residues of FKBP12 and FKBP13 in calcineurin interactions by generating substitutions at these residues by site-directed mutagenesis. All mutants are active catalysts of the prolyl isomerase reaction, and bind FK506 or rapamycin with high affinity. Mutations at FKBP12 residues Asp-37, Arg-42, His-87, and Ile-90 decrease calcineurin affinity of the mutant FKBP12.FK506 complex by as much as 2600-fold in the case of I90K. Replacement of three FKBP13 surface residues (Gln-50, Ala-95, and Lys-98) with the corresponding homologous FKBP12 residues (Arg-42, His-87, and Ile-90) generates an FKBP13 variant that is equivalent to FKBP12 in its affinity for FK506, rapamycin, and calcineurin. These results confirm the role of two loop regions of FKBP12 (residues 40-44 and 84-91) as part of the effector face that interacts with calcineurin.
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PMID:FK506 binding protein mutational analysis. Defining the surface residue contributions to stability of the calcineurin co-complex. 764 51


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