EC:3.1.3.16 - FACTA Search

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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)

The cloning and characterization of cDNAs for the catalytic subunit of calcineurin (CN) from murine and human brain libraries were carried out using nonisotopic methods. A murine cDNA clone encoding a protein of 521 amino acids (Mr approximately 58,650) was isolated; overlapping clones established a 3'-untranslated region of 554 base pairs preceding the poly(A) tail. Homologous cDNAs from human brain showed greater than 92% nucleotide sequence identity in both coding and non-coding regions with greater than 99% conservation of amino acid sequence. A second class of cDNAs lacking a specific 30-base pair region following the calmodulin-binding domain was found in four murine and human libraries. Oligonucleotide probes for both cDNA isoforms hybridized to mRNA from several brain regions indicating the existence of transcripts in vivo. The nucleotide sequences of the two forms were identical except for the inserted sequence, and Southern blot analysis of mouse and rat DNA was consistent with their having originated from the same gene; these data suggest that alternative splicing may give rise to molecular isoforms of the catalytic subunit in brain. Northern blots showed a predominant mRNA for CN in most tissues of approximately 4.0 kilobases (kb) with lower amounts of a 3.6-kb species. Brain showed 10 times more of these mRNAs than skeletal muscle while other tissues had less than or equal to 5% that in brain. In testis, multiple mRNAs were observed, with the major forms being approximately 2.8 and 1.6 kb; the total amount of CN message was about 15% that in brain. The presence of mRNA isoforms of the catalytic subunit may provide for isoenzymes of this phosphatase having distinct phosphoprotein substrate specificities or regulatory properties. The structural relatedness of CN to other mammalian serine/threonine protein phosphatases was highest over a region of approximately 240 amino acids near the amino terminus of this subunit, with greater similarity to protein phosphatase 2A than protein phosphatase 1. The conservation of many regions found in lambda phage phosphatase (Cohen, P.T.W., and Cohen, P. (1989) Biochem. J. 260, 931-934) indicates a common origin for the catalytic domain of this enzyme.
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PMID:Cloning and characterization of molecular isoforms of the catalytic subunit of calcineurin using nonisotopic methods. 216 44

Okadaic acid (OA) is a potent inhibitor of serine/threonine-specific protein phosphatases types 1 and 2A at nanomolar concentrations in cell-free assays and has tumor promoting activity in vivo. We have found that at non-toxic, nanomolar concentrations, OA concentration dependently inhibits the induction of focus-forming transformed cells by the "complete" and "two-stage" protocols in the C3H/10T1/2 mouse fibroblast transformation assay. This inhibitory effect was fully reversible upon removal of OA from the culture medium of carcinogen-treated cells, indicating that OA was not selectively toxic to initiated or transformed cells. Additional treatment with the phorbol ester tumor promoter, TPA, was required to promote the induction of transformed cells after the removal of OA in the two-stage transformation assay. At concentrations that inhibited neoplastic transformation, OA inhibited a type 2A-like phosphohistone protein phosphatase in homogenates of C3H/10T1/2 cells. It is postulated that OA inhibited an early protein phosphatase-sensitive event in the process of in vitro neoplastic transformation by C3H/10T1/2 fibroblasts and had the effect of maintaining carcinogen-treated cells in an initiated state.
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PMID:Okadaic acid: a reversible inhibitor of neoplastic transformation of mouse fibroblasts. 216 98

Five protein serine/threonine phosphatases (PP) have been identified by cloning cDNA from mammalian and Drosophila libraries. These novel enzymes, which have not yet been detected by the techniques of protein chemistry and enzymology, are termed PPV, PP2Bw, PPX, PPY and PPZ. The complete amino acid sequences of PPX, PPY and PPZ and an almost complete sequence of PPV are presented. In the catalytic domain PPV and PPX are more similar to PP2A (57-69% identity) than PP1 (45-49% identity), while PPY and PPZ are more similar to PP1 (66-68% identity) than PP2A (44% identity). The cDNA for PP2Bw encodes a novel Ca2+/calmodulin-dependent protein phosphatase only 62% identical to PP2B in the catalytic domain. Approaches for determining the cellular functions of these protein phosphatases are discussed.
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PMID:Protein serine/threonine phosphatases; an expanding family. 216 91

We have characterized a serine/threonine protein kinase from Xenopus metaphase-II-blocked oocytes, which phosphorylates in vitro the microtubule-associated protein 2 (MAP2). The MAP2 kinase activity, undetectable in prophase oocytes, is activated during the progesterone-induced meiotic maturation (G2-M transition of the cell cycle). p-Nitrophenyl phosphate, a phosphatase inhibitor, is required to prevent spontaneous deactivation of the MAP2 kinase in crude preparations; conversely, the partially purified enzyme can be in vitro deactivated by the low-Mr polycation-stimulated (PCSL) phosphatase (also termed protein phosphatase 2A2), working as a phosphoserine/phosphothreonine-specific phosphatase and not as a phosphotyrosyl phosphatase indicating that phosphorylation of serine/threonine is necessary for its activity. S6 kinase, a protein kinase activated during oocyte maturation which phosphorylates in vitro ribosomal protein S6 and lamin C, can be deactivated in vitro by PCSL phosphatase. S6 kinase from prophase oocytes can also be activated in vitro in fractions known to contain all the factors necessary to convert pre-M-phase-promoting factor (pre-MPF) to MPF. Active MAP2 kinase can activate in vitro the inactive S6 kinase present in prophase oocytes or reactivate S6 kinase previously inactivated in vitro by PCSL phosphatase. These data are consistent with the hypothesis that the MAP2 kinase is a link of the meiosis signalling pathway and is activated by a serine/threonine kinase. This will lead to the regulation of further steps in the cell cycle, such as microtubular reorganisation and S6 kinase activation.
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PMID:In vivo activation of a microtubule-associated protein kinase during meiotic maturation of the Xenopus oocyte. 217 Jan 26

Nerve growth factor (NGF) stimulation of PC12 cells activated two myelin basic protein (MBP) kinase activities greater than 10-fold within 5 min, which were resolved by chromatography on Mono Q. Each enzyme phosphorylated MBP on threonine and was inactivated by incubation with either CD45, a protein tyrosine phosphatase, or protein phosphatase 2A (PP2A), a serine/threonine phosphatase. The effects of CD45 and PP2A were prevented by vanadate and okadaic acid, respectively. Activation of the MBP-kinases provides a mechanism for communication between NGF and intracellular protein tyrosine phosphorylation.
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PMID:Evidence for communication between nerve growth factor and protein tyrosine phosphorylation. 217 96

The effect of phosphorylation of calcineurin on calmodulin (CaM) binding was examined using a synthetic peptide which contains the CaM-binding domain and the serine phosphorylation site. The peptide, corresponding to residues 391-414 of brain calcineurin A subunit, was rapidly phosphorylated by protein kinase C and Ca2+/CaM-dependent protein kinase II but not by cAMP-dependent protein kinase. Phosphorylation of peptide 391-414 did not significantly alter the binding of CaM when compared to the non-phosphorylated peptide.
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PMID:Phosphorylation of calcineurin: effect on calmodulin binding. 217 70

The level of protein phosphorylation is dependent on the relative activities of both protein kinases and protein phosphatases. By comparison with protein kinases, however, there have been considerably fewer studies on the functions of serine/threonine protein phosphatases. This is partly due to a lack of specific protein phosphatase inhibitors that can be used as probes. In the present study we characterize the inhibitory effects of microcystin-LR, a hepatotoxic cyclic peptide associated with most strains of the blue-green algae Microcystis aeruginosa found in the Northern hemisphere, that proves to be a potent inhibitor of type 1 (IC50 = 1.7 nM) and type 2A (IC50 = 0.04 nM) protein phosphatases. Microcystin-LR inhibited the activity of both type 1 and type 2A phosphatases greater than 10-fold more potently than okadaic acid under the same conditions. Type 2A protein phosphatases in dilute mammalian cell extracts were found to be completely inhibited by 0.5 nM microcystin-LR while type 1 protein phosphatases were only slightly affected at this concentration. Thus, microcystin-LR may prove to be a useful probe for the study and identification cellular processes which are mediated by protein phosphatases.
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PMID:Characterization of microcystin-LR, a potent inhibitor of type 1 and type 2A protein phosphatases. 217 36

Protein purification and molecular cloning have defined five classes of protein serine-threonine phosphatase catalytic subunits referred to as types 1, 2A, 2B (calcineurin), 2C, and X. Protein serine-threonine phosphatases 1, 2A, 2B, and X appear to have significant sequence homologies, whereas the 2C enzyme is more divergent. We have used the polymerase chain reaction to define the multiplicity of the closely related types 1, 2A, 2B, and X phosphatase catalytic subunits in two clonal cell lines, rat PC12 pheochromocytoma and rat FTO-2B hepatoma. RNAs for all four related phosphatase types were expressed in both cell lines. In addition to the phosphatase X enzyme, four phosphatase 1, two phosphatase 2A, and three phosphatase 2B isoforms were identified in PC12 and FTO-2B cells. The results indicate a large multiplicity of protein serine-threonine phosphatases within clonal cells of different tissue origin, suggesting that their role in cell regulation will be as divergent as that for the protein serine-threonine kinases.
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PMID:Multiplicity of protein serine-threonine phosphatases in PC12 pheochromocytoma and FTO-2B hepatoma cells. 217 76

The intact, 100 kd microsomal enzyme and the 53 kd catalytic fragment of rat HMG-CoA reductase are both phosphorylated and inactivated by the AMP-activated protein kinase. Using the catalytic fragment, we have purified and sequenced peptides containing the single site of phosphorylation. Comparison with the amino acid sequence predicted from the cDNAs encoding other mammalian HMG-CoA reductases identifies this site as a serine residue close to the C-terminus (Ser872 in the human enzyme). Phosphopeptide mapping of native, 100 kd microsomal HMG-CoA reductase confirms that this C-terminal serine is the only major site phosphorylated in the intact enzyme by the AMP-activated protein kinase. The catalytic fragment of HMG-CoA reductase was also isolated from rat liver in the presence of protein phosphatase inhibitors under conditions where the enzyme is largely in the inactive form. HPLC, mass spectrometry and sequencing of the peptide containing Ser872 demonstrated that this site is highly phosphorylated in intact liver under these conditions. We have also identified by amino acid sequencing the N-terminus of the catalytic fragment, which corresponds to residue 423 of the human enzyme.
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PMID:Regulation of HMG-CoA reductase: identification of the site phosphorylated by the AMP-activated protein kinase in vitro and in intact rat liver. 236 97

Calmodulin-dependent protein phosphatase from bovine brain and heart was assayed for phosphotyrosine and phosphoserine phosphatase activity using several substrates: 1) smooth muscle myosin light chain (LC20) phosphorylated on tyrosine or serine residues, 2) angiotensin I phosphorylated on tyrosine, and 3) synthetic phosphotyrosine- or phosphoserine-containing peptides with amino acid sequences patterned after the autophosphorylation site in Type II regulatory subunit of the cAMP-dependent protein kinase. The phosphatase was activated by Ni2+ and Mn2+, and stimulated further by calmodulin. In the presence of Ni2+ and calmodulin, it exhibited similar kinetic constants for the dephosphorylation of phosphotyrosyl LC20 (Km = 0.9 microM, and Vmax = 350 nmol/min/mg) and phosphoseryl LC20 (Km = 2.6 microM, Vmax = 690 nmol/min/mg). Dephosphorylation of phosphotyrosyl LC20 was inhibited by phosphoseryl LC20 with an apparent Ki of 2 microM. Compared to the reactions with phosphotyrosyl LC20 as the substrate, reactions with phosphotyrosine-containing oligopeptides exhibited slightly higher Km and lower Vmax values. The reaction with the phosphoseryl peptide based on the Type II regulatory subunit sequence exhibited a slightly higher Km (23 microM), but a much higher Vmax (4400 nmol/min/mg) than that with its phosphotyrosine-containing counterpart. Micromolar concentrations of Zn2+ inhibited the phosphatase activity; vanadate was less potent, and 25 mM NaF was ineffective. The study provides quantitative data to serve as a basis for comparing the ability of the calmodulin-dependent protein phosphatase to act on phosphotyrosine- and phosphoserine-containing substrates.
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PMID:Characterization of the phosphotyrosyl protein phosphatase activity of calmodulin-dependent protein phosphatase. 242 55

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