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)

Sequence analysis of the genomes of the Leporipoxviruses myxoma virus and Shope fibroma virus (SFV) led to the discovery of open reading frames homologous to the vaccinia H1L gene encoding a soluble protein phosphatase with dual tyrosine/serine specificity. These viral phosphatase genes were subsequently localized to the myxoma BamHI-I fragment and the SFV BamHI-M fragment, and the resulting encoded proteins were designated I1L and M1L, respectively. The localization and orientation of the myxoma I1L and SFV M1L open reading frames within the well conserved central core of the viral genomes closely mirror that of the Orthopoxviruses vaccinia virus and variola virus. The myxoma I1L and SFV M1L phosphatases each contain the conserved tyrosine phosphatase signature sequence motif, (I/V)HCXAGXXR(S/T)G, including the active site cysteine, found previously to be essential for phosphotyrosine dephosphorylation. The vaccinia H1L phosphatase was originally shown to have the ability to dephosphorylate phosphotyrosyl and phosphoseryl residues in vitro. To assess whether this is a common feature of poxvirus phosphatases, myxoma I1L was expressed as a GST-fusion protein, purified, and shown to dephosphorylate substrates containing tyrosine and serine phosphorylated residues, in a similar fashion to vaccinia H1L. A myxoma I1L variant, in which the active site cysteine 110 was mutated to serine, was expressed in a parallel fashion to the wild-type I1L protein and found to be completely deficient in its ability to dephosphorylate both phosphotyrosine and phosphoserine amino acids. In an attempt to ascertain the biological requirement for the myxoma I1L phosphatase, we constructed a recombinant myxoma virus containing a disrupted I1L open reading frame. This I1L mutant virus was able to successfully propagate in tissue culture only in the presence of a wild-type complementing gene, and pure virus clones containing only the disrupted allele were not viable. Thus, we conclude that the myxoma I1L dual specificity phosphatase is an essential factor for virus viability.
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PMID:Myxoma virus and Shope fibroma virus encode dual-specificity tyrosine/serine phosphatases which are essential for virus viability. 783 13

We show that the fission yeast dis2 protein phosphatase, which is highly similar to mammalian type 1 phosphatase, is a phosphoprotein containing phosphoserine (phospho-S) and threonine (phospho-T). It has several phosphorylation sites, two of which locate in the C-terminus. Phospho-T was abolished in the alanine substitution mutant at the C-terminal T316, which is conserved as a residue in the cdc2 consensus, TPPR, in a number of type 1-like phosphatases. In G2-arrested cdc2-L7 cells, the degree of T316 phosphorylation was reduced, whereas it was enhanced in metaphase-arrested nuc2-663 mutant cells. Phospho-T was produced in dis2 by fission yeast cdc2 kinase, but not in the substitution mutant A316, indicating that the T316 residue was the site for cdc2 kinase in vitro. Phosphatase activity of wild type dis2 was reduced by incubation with cdc2 kinase, but that of mutant dis2-A316 was not. Phosphorylation of T316 hence has a potential significance in cell cycle control in conjunction with cdc2 kinase activation and inactivation. Overexpression phenotypes of wild type dis2+, sds21+ and mutant dis2-A316, sds21-TPPR genes were consistent with negative regulation of dis2 by phosphorylation. This type of regulation would explain why cells harboring the dis2-11 mutation enter mitosis but fail to exit from it.
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PMID:Phosphorylation of dis2 protein phosphatase at the C-terminal cdc2 consensus and its potential role in cell cycle regulation. 795 97

Mutation of three cationic surface residues of human cyclophilin A (hCyPA), R69, K125, and R148, to both anionic and neutral residues left its intrinsic peptidyl-prolyl isomerase (PPIase) activity and cyclosporin A (CsA) binding unaffected, but altered its ability to inhibit the serine phosphatase activity of calcineurin (CN). R69E was 13-fold less effective (Ki = 3400 nM) than wild-type hCyPA (Ki = 270 nM) in presenting CsA for calcineurin phosphatase inhibition, while R148E was 17-fold more effective (Ki < or = 16 nM), and human CyPB was 13-fold better (Ki < or = 21 nM), establishing that a composite drug/protein surface is being recognized. The phosphoserine phosphatase reaction catalyzed by CN using unlabeled phosphoserine RII19 peptide was coupled to a continuous spectrophotometric assay to measure inorganic phosphate production using the enzyme purine ribonucleoside phosphorylase and the substrate N7-methyl-2-thioguanosine [Webb, M. R. (1992) Proc. Natl. Acad. Sci. U.S.A. 89, 4884-4887]. With this assay, we have determined that human cyclophilin A complexed with the immunosuppressive drug cyclosporin A is a noncompetitive inhibitor of calcineurin phosphatase activity. This mutational analysis identified hCyPA residues that interact with CN, and comparison to similar data on FKBP allowed us to begin to map out the CN recognition surface. The p-nitrophenylphosphatase activity of CN was stimulated ca. 3-fold by CyP.CsA, presumably reflecting altered active site geometry and selective access of this small substrate.
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PMID:Cyclophilin residues that affect noncompetitive inhibition of the protein serine phosphatase activity of calcineurin by the cyclophilin.cyclosporin A complex. 811 97

Unrestricted protein tyrosine phosphatase (PTPase) activity may play a role in pathogenesis. For instance, the virulence determinant gene, yopH, of Yersinia pseudotuberculosis encodes a PTPase. The phosphatase activity of the YopH protein is essential for the pathogenesis of Y. pseudotuberculosis. Yersinia pestis, the bacterium which causes the bubonic plague, also contains a gene closely related to yopH. The action of YopH on host proteins appears to break down signal transduction mechanisms in many cell types including those of the immune system. This may contribute to the ability of the bacterium to escape effective surveillance by the immune system. The vaccinia virus VH1 gene, like yopH in the Yersinia bacteria, encodes a protein phosphatase. The VH1 PTPase defines a new class of phosphatases capable of dephosphorylating both phosphoserine/threonine and tyrosine containing substrates. Proteins sharing sequence identity to this dual-specificity phosphatase have been identified from other viruses, yeast and man. Although a complete understanding of the function of these dual-specificity phosphatases is not presently available, they clearly play important roles in cell cycle regulation, growth control and mitogenic signaling mechanisms. The unique catalytic properties of the dual specificity phosphatases suggest that these catalysts constitute a distinct subfamily of phosphatases.
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PMID:Bacterial and viral protein tyrosine phosphatases. 830 77

We have observed that soluble extracts from the extreme acidothermophilic archaebacterium Sulfolobus solfataricus contained protein phosphatase activity that was greatly stimulated by the divalent metal ions Mn2+, Mg2+, Ni2+, or Co2+. This activity apparently arose from a single enzyme since (a) stimulation by these divalent metal ions was not additive and (b) protein phosphatase activity eluted as a single peak from both a DE52 ion-exchange column and a Sephadex G-100 gel filtration column. Its apparent molecular mass was approximately 28,000 daltons. The enzyme dephosphorylated a variety of phosphoserine-containing substrates including casein, histone H2a, phosphorylase kinase, or glycogen phosphorylase. The enzyme would not dephosphorylate either histone H1 or a number of phosphotyrosine-containing compounds. It removed only half the phosphate bound to histone H2b, which is phosphorylated at two sites by the cAMP-dependent protein kinase. Protein phosphatase activity was inhibited by EDTA, Cu2+, Zn2+, NaF, inorganic phosphate, or pyrophosphate; but was unaffected by other potential activators and inhibitors such as microcystin, okadaic acid, vanadate, polyamines, or sulfhydryl modifying reagents. This enzyme represents the first protein phosphatase to be identified in any member of the third and oldest phylogenetic kingdom in nature, the archaebacteria.
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PMID:Identification of a serine/threonine-specific protein phosphatase from the archaebacterium Sulfolobus solfataricus. 838 14

Okadaic acid, a specific inhibitor of phosphoserine/threonine protein phosphatases 1 and 2A, was used to determine whether these protein phosphatases play a role in collagen-induced platelet aggregation and release reaction as measured by ATP release. Collagen-induced platelet aggregation and ATP release were inhibited by the addition of okadaic acid to platelet-rich plasma in a dose-dependent manner. The inhibitory effect of okadaic acid on collagen-induced platelet aggregation correlated with phosphorylation of proteins with M(r) 14.4, 25, 32, 36, 50, 60, and 80 kDa. The 14.4-kDa protein was purified to apparent homogeneity by electroelution from gel slices. This protein reacted with antibodies to phospholipase A2 (PLA2). Since okadaic acid inhibited PLA2 activity in platelet-rich plasma but not in the PLA2 assay mixture, the effect appears to be indirect. Furthermore, using a combination of immunoprecipitation and measurement of enzyme activity, PLA2 activity was inhibited in the presence of okadaic acid. The inhibited activity could not be restored by the addition of collagen. These results suggest that the phosphorylated form of PLA2 is inactive. Using [32P]glycogen phosphorylase a as substrate, protein phosphatase activity was inhibited by okadaic acid in a concentration-dependent manner. An immunoblot of platelet homogenates with anti-protein phosphatase 1 showed a band with M(r) 50 kDa reacting with the antibodies, suggesting that the 50-kDa protein is protein phosphatase 1. These data clearly show that okadaic acid increases the phosphorylation and indirectly decreases the activity of PLA2, but whether inhibition of PLA2 activity is related to collagen-induced platelet aggregation and release reaction remains to be determined.
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PMID:The role of protein phosphatases 1 and 2A in collagen-platelet interaction. 838 5

Papovavirus tumor antigens have been shown to associate with the cellular phosphoserine/threonine-specific protein phosphatase 2A (PP2A). We were interested in the consequences that T-antigen association might have on PP2A activity and so studies of the phosphatase activity in immunoprecipitates, prepared from polyoma virus-transformed or polyoma virus-infected mouse 3T3 fibroblasts, were performed. The phosphoserine/threonine phosphatase activity, measured with phosphorylase a as the substrate, showed all the characteristics of PP2A. It was stimulated by polycations, inhibited by fluoride or p-nitrophenyl phosphate, sensitive to okadaic acid and microcystin and insensitive to inhibitor-1 and inhibitor-2. Phosphotyrosyl phosphatase (PTPase) activity was associated with the middle-T/small-T-associated complex when reduced, carboxamidomethylated and maleylated lysozyme, phosphorylated exclusively on tyrosyl residues, was used as the substrate. This PTPase activity was as sensitive to okadaic acid as was the phosphorylase phosphatase activity; it could be inhibited by phosphorylase a and did not dephosphorylate poly(Glu80Tyr20). The level of middle-T/small-T-associated PTPase activity relative to the phosphorylase phosphatase activity was tenfold higher than that of the purified dimeric PP2A. A similar activity ratio was observed with the purified phosphatase after stimulation with a cellular protein, designated phosphotyrosyl phosphatase activator. These results suggest that the same enzyme may possess dual specificity. In contrast to the cellular trimeric PP2A, containing the 55-kDa putative regulatory subunit, the middle-T/small-T-associated enzyme had low activity towards a retinoblastoma peptide phosphorylated by p34cdc2. These results indicate how middle-T/small-T might effect the activity of PP2A in polyoma virus-transformed cells.
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PMID:Phosphatase 2A associated with polyomavirus small-T or middle-T antigen is an okadaic acid-sensitive tyrosyl phosphatase. 838 2

Lack of a suitable substrate has been a major obstacle in studying the chloroplastic thylakoid membrane protein phosphatase activity. In this study, the suitability of synthetic phosphopeptides for this purpose was investigated. Phosphothreonine-containing phosphopeptides mimicking the N-terminal phosphorylation site of the major thylakoid phosphoprotein, the light-harvesting chlorophyll a/b-binding protein (LHCP-II), were dephosphorylated by isolated peak thylakoid membranes. Phosphopeptides representing unrelated sequences or in which the target phosphothreonine had been changed to a phosphoserine were not dephosphorylated. The dephosphorylation of phosphopeptides by thylakoid membranes was similar to the dephosphorylation of endogenous LHCP-II in its pH-dependence profile, sensitivity to inhibitors, and bivalent cation requirement. The same phosphopeptide analogs of the LHCP-II phosphorylation site inhibited endogenous LHCP-II dephosphorylation in isolated thylakoids, whereas the dephospho-analogs and nonsubstrate phosphopeptides had no effect. Collectively, these results suggest that phosphopeptides mimicking a thylakoid phosphoprotein dephosphorylation site can be exploited for further study of the thylakoid protein phosphatase activity.
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PMID:Phosphopeptides as substrates for thylakoid protein phosphatase activity. 839 59

The recent discovery of the vaccinia virus protein phosphatase VH1, and its mammalian counterparts has highlighted a novel subfamily of protein tyrosine phosphatases that exhibit dual specificity toward phosphotyrosine- and phosphoserine/threonine-residues. We have identified further members of this subfamily. The characterisation of one clone in particular, which we have named threonine-tyrosine phosphatase 1 (TYP 1), encodes a protein homologous to CL100, but differs dramatically in its regulation. TYP 1 is not expressed in human fibroblasts unlike other CL100-like genes. Furthermore, northern analysis has demonstrated that following mitogenic stimulation of squamous cells, induction of TYP 1 mRNA reaches its maximal levels after four hours, in contrast to the immediate early CL100-like genes. Both TYP 1 and CL100 mRNAs are induced upon TGF-beta treatment of squamous cell lines sensitive to the growth factors antiproliferative effects. When TYP 1 is transfected into COS-1 cells, the gene product inhibits both ERK2 and p54 MAP kinase subfamilies. In addition, we show that purified TYP 1 protein efficiently inactivates recombinant ERK2 in vitro by the concomitant dephosphorylation of both its phosphothreonine and -tyrosine residues. TYP 1 encodes a nuclear protein, which when expressed in COS cells is stabilised by EGF treatment.
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PMID:Isolation and characterisation of a uniquely regulated threonine, tyrosine phosphatase (TYP 1) which inactivates ERK2 and p54jnk. 854 12

We examined the effects of chronic treatment with several types of antidepressants on microtubule assembly and phosphorylation of microtubule-associated proteins (MAPs) in the rat cerebral cortex. The microtubule assembly was monitored in turbidity at 350 nm using a spectrophotometer. Chronic but not acute treatment with desipramine (DMI), maprotiline (MPR) or citalopram (CTR) inhibited microtubule assembly, assayed in the presence of protein phosphatase inhibitors (PPI). In contrast, this inhibitory effect was completely nullified in the absence of PPI. The three compounds had no direct effect on microtubule assembly. The phosphorylation of MAPs (MAP2 and tau) was investigated by immunoblotting with monoclonal antibodies (phosphoserine, phosphothreonine and phosphotyrosine) after immunoprecipitation of MAPs. The serine but not threonine or tyrosine phosphorylation of MAP2 was significantly increased after chronic treatment with DMI, MPR or CTR. The phosphorylation of tau was not altered following chronic administration of antidepressants. These results suggest that the inhibition of microtubule assembly observed after chronic antidepressant treatment is attributable to an increase in the phosphorylated MAP2 and this effect may represent a novel and common action of typical and atypical antidepressant agents. Our results show that besides second messengers system, protein phosphorylation might be involved in the therapeutic effects of antidepressants.
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PMID:[Effects of chronic administration of antidepressants on microtubule assembly in rat cerebral cortex]. 856 31


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