EC:2.7.11.1 - FACTA Search

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Query: EC:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Activation of maturation-promoting factor at the onset of mitosis requires the tyrosine dephosphorylation of one of its components, the cdc2 protein kinase. cdc25 is the specific tyrosine phosphatase that activates cdc2. We find that Xenopus oocytes contain a relative of cdc25, p72. In Xenopus embryos the abundance of p72 does not oscillate during the cell cycle. However, p72 directly associates with cdc2-cyclin B in a cell cycle-dependent manner, reaching a peak at M phase. The M phase kinase that associates with p72 is catalytically active. These results suggest that the mechanism by which cdc25 triggers cdc2 activation involves a periodic physical association between cdc25 and the cyclin B-cdc2 complex and also that mitotic control can be affected by mechanisms other than transcriptional regulation of the cdc25 gene.
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PMID:Oscillation of MPF is accompanied by periodic association between cdc25 and cdc2-cyclin B. 131 Feb 57

TSH regulation of insulin and insulin-like growth factor-I (IGF-I) receptor kinases has been studied in FRTL5 cultured thyroid cells. Preincubation of intact cells with TSH increased by 2-fold insulin and IGF-I receptor autophosphorylation and phosphorylation of the p175 endogenous substrate for the receptors. Enhanced phosphorylations reached a maximum within 30 min, were maintained for 30 min more, and vanished after 120 min of TSH incubation. TSH dose-responses exhibited half-maximal and maximal effects at 1 and 10 pM, respectively. In vitro, insulin as well as IGF-I receptors purified from cells treated with 10 pM TSH also exhibited 2-fold enhanced receptor autophosphorylation and kinase activity toward the exogenous substrate poly(Glu,Tyr) (4:1). At variance with TSH, cell incubation with either 8-bromo-cAMP or the protein kinase-C activator 12-O-tetradecanoylphorbol-13-acetate inhibited insulin and IGF-I receptor kinases. In intact cells, TSH stimulation of insulin and IGF-I receptor kinases was accompanied by enhanced turnover of phosphate on autophosphorylated receptors, increased receptor tyrosine phosphorylation, and decreased receptor serine/threonine phosphorylation in response to insulin. Incubation of in vivo labeled insulin and IGF-I receptors with extracts from TSH-treated cells also decreased receptor phosphoserine and phosphothreonine content. Furthermore, preincubation of insulin and IGF-I receptors with extracts from TSH-treated cells enhanced in vitro autophosphorylation. The latter effect was inhibited by the serine/threonine phosphatase inhibitors fluoride and okadaic acid, but not by the tyrosine phosphatase inhibitor vanadate. The data suggest that in FRTL5 cells, TSH induces the activity of a Ser/Thr protein phosphatase, which dephosphorylates insulin and IGF-I receptors and enhances their endogenous kinases.
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PMID:Thyrotropin regulates autophosphorylation and kinase activity in both the insulin and the insulin-like growth factor-I receptors in FRTL5 cells. 131 Dec 44

Previous work has shown that nimA encodes a cell cycle regulated protein kinase that is required along with the p34cdc2 histone H1 kinase (MPF) for mitosis in Aspergillus nidulans. We have now identified two other gene products required for mitosis in A.nidulans. nimT encodes a protein similar to the fission yeast cdc25 tyrosine phosphatase and is required for the conversion of pre-MPF to MPF and nimE encodes a B-type cyclin which is a subunit of MPF. A new genetic interaction between nimEcyclinB and nimTcdc25 type genes is reported. Increased copy number of nimEcyclinB can suppress mutation of nimTcdc25 and also lead to increased accumulation of tyrosine phosphorylated p34cdc2 (pre-MPF). This biochemical observation suggests an explanation for the genetic complementation. If nimEcyclinB recruits p34cdc2 for tyrosine phosphorylation to form pre-MPF it follows that increased expression of nimEcyclinB would increase the level of pre-MPF. The increased level of pre-MPF generated may then allow the mutant nimTcdc25 protein to convert enough pre-MPF to MPF and thus permit some mitotic progression. We also demonstrate that correct cell cycle regulation by the p34cdc2 protein kinase pathway is essential for correct developmental progression in A.nidulans.
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PMID:An extra copy of nimEcyclinB elevates pre-MPF levels and partially suppresses mutation of nimTcdc25 in Aspergillus nidulans. 153 50

The cdc25 protein is a highly specific tyrosine phosphatase that triggers mitosis by dephosphorylating the cdc2 protein kinase. Using Xenopus extracts, we have found that the cdc25 protein is active at a low level throughout interphase. Near the onset of mitosis, the cdc25 protein undergoes a marked elevation in phosphatase activity that coincides with an extensive phosphorylation of the protein in its N-terminal region. In vitro dephosphorylation of this hyperphosphorylated form of cdc25 reduces its phosphatase activity back to the interphase level. Moreover, treatment of interphase Xenopus extracts with okadaic acid, a phosphatase inhibitor that accelerates the entry into mitosis, elicits both the premature hyperphosphorylation of cdc25 and the stimulation of its cdc2-specific tyrosine phosphatase activity. These experiments demonstrate the existence of a cdc25 regulatory system consisting of both a stimulatory kinase that phosphorylates a putative regulatory domain of the cdc25 protein and an inhibitory serine/threonine phosphatase that counteracts this kinase activity.
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PMID:Regulation of the cdc25 protein during the cell cycle in Xenopus extracts. 162 17

The nicotinic acetylcholine receptor (nAChR) is phosphorylated to a high stoichiometry on tyrosine residues both in vitro and in vivo. Moreover, tyrosine phosphorylation has been shown to regulate the functional properties of the receptor. We report here the purification and characterization of a protein tyrosine phosphatase that dephosphorylates tyrosine-phosphorylated nAChR from Torpedo electroplax, a tissue highly enriched in the nAChR. The 32P-labeled tyrosine phosphorylated nAChR was used as a substrate to monitor the enzyme activity during purification. The protein tyrosine phosphatase activity was purified using three consecutive cation-exchange columns (phosphocellulose, S Sepharose Fast Flow, Bio-Rex 70), followed by two affinity matrices (p-aminobenzylphosphonic acid-agarose and thiophosphotyrosyl nAChR-Sepharose 4B). The enzyme activity was purified to homogeneity, with an overall purification of 25,000-fold and a yield of 20%. The purified enzyme had an apparent molecular mass of 43 kDa on sodium dodecyl sulfate-polyacrylamide gels and migrated as a monomer during Superose 12 chromatography. It had a neutral pH optimum and a specific activity of 18 mumol/mg of protein/min, with a Km of 4.7 microM for tyrosine-phosphorylated nAChR. The phosphatase was specific for tyrosine phosphorylated nAChR; it showed no activity towards the nAChR phosphorylated on serine residues by cAMP-dependent protein kinase. The enzyme also dephosphorylated 32P-labeled poly(Glu-Tyr) (4:1). However, it did not dephosphorylate p-nitrophenylphosphate. The tyrosine phosphatase was inhibited by ammonium molybdate (IC50 of 2 microM), sodium vanadate (IC50 of 150 microM) and the divalent cations Mg2+, Mn2+, and Ca2+ at millimolar concentrations, but not by 100 microM ZnCl or 10 mM NaF. Poly-(Glu, Tyr) (4:1) and heparin inhibited the enzyme activity at micromolar concentrations. These unique properties of the purified enzyme suggest that it may be a novel protein tyrosine phosphatase that specifically dephosphorylates the nAChR.
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PMID:Purification and characterization of a protein tyrosine phosphatase which dephosphorylates the nicotinic acetylcholine receptor. 165 33

Genetic and biochemical studies have indicated that the cdc25 protein controls the entry into mitosis by triggering tyrosine dephosphorylation of the cdc2 protein kinase. We show that the isolated cdc25 protein can catalyze dephosphorylation of several model phosphatase substrates, including p-nitrophenyl phosphate and two distinct tyrosine-phosphorylated peptides. The cdc25-dependent cleavage reaction closely resembles dephosphorylation by known tyrosine phosphatases: the reaction requires a reducing agent, shows high sensitivity to sodium vanadate, and proceeds efficiently in the presence of metal chelators. Moreover, the phosphatase activity of the cdc25 protein is eliminated by treatment with N-ethylmaleimide or by alteration of a single conserved cysteine residue by site-directed mutagenesis. These observations indicate that the cdc25 protein can function as a tyrosine phosphatase in the absence of any other protein.
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PMID:The cdc25 protein contains an intrinsic phosphatase activity. 165 74

Engagement of membrane IgM on a number of human and murine B-cell lines induced activation of a Mn(2+)-preferring serine/threonine kinase that phosphorylated microtubule-associated protein-2 (MAP-2) in vitro. B-cell MAP-2 kinase (MAP-2K) activity could be fractionated into two peaks by sequential DEAE and hydrophobic chromatography. Although peak I included two tyrosine phosphoproteins of molecular mass 36 and 38 kDa, peak II showed a single 42-kDa tyrosine phosphoprotein (pp42). Since all kinase activity could be removed from peak II material over an antiphosphotyrosine immune affinity column, it suggests that pp42 is identical with lymphoid MAP-2K. Although peak I activity showed a similarity to peak II with regard to its preference for Mn2+, sensitivity to phosphatase exposure, and resistance to a range of common serine kinase inhibitors, it is not clear whether these activities are related. MAP-2 kinase activity could also be induced by treatment with the phorbol ester, phorbol myristate 13-acetate, suggesting that protein kinase C may also be involved with MAP-2K regulation. Although MAP-2K activity reached a peak response within minutes of receptor ligation, there were differences in the rates of dephosphorylation of pp42 and decline of MAP-2K activity in different B-cell lines. The tyrosine phosphatase inhibitor, vanadate, transformed a rapidly reversible MAP-2K response in BAL 17.2 cells into a sustained state of activation that resembled the kinetics of activation in WEHI-231 cells. The latter finding implies involvement of a tyrosine phosphatase, which opposes the effect of an inducing tyrosine kinase.
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PMID:Stimulation of B-cells via the membrane immunoglobulin receptor or with phorbol myristate 13-acetate induces tyrosine phosphorylation and activation of a 42-kDa microtubule-associated protein-2 kinase. 165 69

We have recently characterized a serine kinase in T lymphocytes which phosphorylates microtubule-associated protein-2 (MAP-2) in vitro. This kinase is activated in a rapidly reversible fashion during ligation of CD3/Ti by a process which involves tyrosine phosphorylation of the enzyme itself. We show that the stimulatory anti-CD2 mAb combination, anti-(T11(2) + T11(3), stimulates MAP-2K activity in Jurkat cells with kinetics that are more prolonged than during anti-CD3 treatment. The principal difference is not in the rate of response induction, but in the decline of the response beyond the peak, to which end anti-CD2 stimulation resembles the sustained phytohaemagglutin (PHA) response. Parallel immunoblotting, utilizing anti-phosphotyrosine antibodies, also revealed differences in the rate at which tyrosine phosphorylation of pp43 (MAP-2K) disappears after induction. In spite of these differences, CD2 was absolutely dependent on the presence of CD3 for inducing a MAP-2K response in Jurkat cells. These results indicate that, even though CD2 and CD3 are using a common signalling pathway in Jurkat cells, additional differences such as the involvement of a tyrosine phosphatase may have to be considered in response generation. We also demonstrate that the common CD45 isoform, when cross-linked to CD2 by mAb, could inhibit the MAP-2K response during both induction as well as the disappearing phase of the response.
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PMID:Activation of MAP-2 kinase activity by the CD2 receptor in Jurkat T cells can be reversed by CD45 phosphatase. 167 84

The onset of M phase requires the activation of the pp34 protein kinase in all eukaryotes thus far examined. In Schizosaccharomyces pombe, pp34 is phosphorylated on Tyr15, and dephosphorylation of this residue regulates the initiation of mitosis. In this study, it is shown that dephosphorylation of Tyr15 triggered activation of the pp34-cyclin complex from fission yeast, that a human protein-tyrosine phosphatase can catalyze this event both in vitro and in vivo, and that activation of fission yeast pp34 does not require threonine dephosphorylation. The complementary DNA that encoded the tyrosine phosphatase replaced the mitotic activator p80cdc25, closely associating the cdc25(+)-activating pathway with tyrosine dephosphorylation of pp34.
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PMID:Complementation of the mitotic activator, p80cdc25, by a human protein-tyrosine phosphatase. 170 21

Two previously unidentified human cdc25 genes have been isolated, cdc25A and cdc25B. Both genes rescue a cdc25ts mutant of fission yeast. Microinjection of anti-cdc25A antibodies into HeLa cells causes their arrest in mitosis. cdc25A and cdc25B display endogenous tyrosine phosphatase activity that is stimulated several-fold, in the absence of cdc2, by stoichiometric addition of either cyclin B1 or B2 but not A or D1. Association between cdc25A and cyclin B1/cdc2 was detected in the HeLa cells. These findings indicate that B-type cyclins are multifunctional proteins that not only act as M phase regulatory subunits of the cdc2 protein kinase, but also activate the cdc25 tyrosine phosphatase, of which cdc2 is the physiological substrate. A region of amino acid similarity between cyclins and tyrosine PTPases has been detected. This region is absent in cdc25 phosphatases. The motif may represent an activating domain that has to be provided to cdc25 by intermolecular interaction with cyclin B.
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PMID:Specific activation of cdc25 tyrosine phosphatases by B-type cyclins: evidence for multiple roles of mitotic cyclins. 183 78

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