EC:2.7.11.22 - FACTA Search

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Query: EC:2.7.11.22 (cdc2)
8,319 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Agonist-activated phosphoinositide (PI)-specific phospholipase C initiates PI hydrolysis to produce signals implicated in mitogenic signaling in which the cyclin-dependent cdc2-protein kinase of the maturation-promoting factor is a major protein-tyrosine kinase (PTK) substrate. It has been suggested that PI mitogenic signals are separable into PTK-dependent and non-PTK-dependent by genistein, a tyrosine-specific protein kinase inhibitor. However, we show here that DNA synthesis was abolished in human Chang liver cells although the sulphate-induced PI second messengers, i.e. inositol 1,4,5-trisphosphate and sn-1,2,diacylglycerol, were at equivalent dose-response levels with or without genistein (0.5 mM, 135 microgram/ml). This genistein dosage had been demonstrated to be effective in suppressing tyrosyl phosphorylation in cells. There was no increase in the trypan blue dead cell index. We have shown previously that human Chang cells stimulated by this 'non-growth-factor' agonist, i.e. sulphate, as well as extracellular ATP, became rounded with raised intracellular pH. ATP-induced cell rounding and intracellular alkalinization were not affected by the presence of genistein (0.5 mM). In the present investigation, that genistein dosage had also no effect on these cellular responses when initiated by added sulphate. It seems that the mitogenic signaling function of PI second messengers is dissociable and requires unsuppressed PTK activity.
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PMID:Genistein inhibits DNA synthesis but has no effect on levels of DAG and IP3, cell rounding and alkalinization in sulphate-treated Chang liver cells. 130 25

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

Casein kinase 2 (CK2) is a ubiquitous, multifunctional protein-seryl/threonyl kinase that has been implicated in cellular regulation. Synthetic peptides were patterned after three highly conserved regions in CK2: the N terminus (CK2-NT); the lysine-rich, kinase subdomain III segment (CK2-III) (nomenclature of Hanks et al. (Hanks, S. K., Quinn, A. M., and Hunter, T. (1988) Science 241, 42-52)); and a 10-residue segment located near kinase subdomain X that is shared between CK2 and p34cdc2 (CK2/cdc2). The CK2-III and CK2/cdc2 peptides markedly stimulated the autophosphorylation of the alpha- and alpha'-subunits of purified CK2 from sea star oocytes, and they elicited up to 2-fold increases in its casein or phosvitin phosphotransferase activity. These peptides completely reversed nearly total inhibition of CK2 phosphotransferase activity toward itself, casein, and phosvitin by either heparin or poly(Glu,Tyr; 4:1), whereas CK2-NT was ineffective. Elution of CK2 from heparin-agarose with the CK2-III peptide indicated that this region of CK2 might mediate heparin binding to CK2. Affinity-purified rabbit polyclonal antibodies developed against both CK2-III and CK2/cdc2, but not CK2-NT, also produced up to 1.8-fold enhancements of the casein and phosvitin phosphotransferase activities of purified CK2. All three of the antipeptide antibody preparations immunoreacted with the alpha- and alpha'-subunits of CK2 on Western blots. These studies indicate that kinase subdomains III and X are involved in the modulation of CK2 phosphotransferase activity.
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PMID:Structure-function analysis of casein kinase 2 with synthetic peptides and anti-peptide antibodies. 131 43

Cyclins are proteins which are synthesized and degraded in a cell cycle-dependent fashion and form integral regulatory subunits of protein kinase complexes involved in the regulation of the cell cycle. The best known catalytic subunit of a cyclin-dependent protein kinase complex is p34cdc2. In the cell, cyclins A and B are synthesized at different stages of the cell cycle and induce protein kinase activation with different kinetics. The kinetics of activation can be reproduced and studied in extracts of Xenopus eggs to which bacterially produced cyclins are added. In this paper we report that in egg extracts, both cyclin A and cyclin B associate with and activate the same catalytic subunit, p34cdc2. In addition, cyclin A binds a less abundant p33 protein kinase related to p34cdc2, the product of the cdk2/Eg1 gene. When complexed to cyclin B, p34cdc2 is subject to transient inhibition by tyrosine phosphorylation, producing a lag between the addition of cyclin and kinase activation. In contrast, p34cdc2 is only weakly tyrosine phosphorylated when bound to cyclin A and activates rapidly. This finding shows that a given kinase catalytic subunit can be regulated in a different manner depending on the nature of the regulatory subunit to which it binds. Tyrosine phosphorylation of p34cdc2 when complexed to cyclin B provides an inhibitory check on the activation of the M phase inducing protein kinase, allowing the coupling of processes such as DNA replication to the onset of metaphase. Our results suggest that, at least in the early Xenopus embryo, cyclin A-dependent protein kinases may not be subject to this checkpoint and are regulated primarily at the level of cyclin translation.
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PMID:Cyclin A- and cyclin B-dependent protein kinases are regulated by different mechanisms in Xenopus egg extracts. 131 71

Clam oocytes are arrested naturally at the G2/M border in meiosis and contain an inactive 42 kDa ERK/MAP kinase, p42MAPK. Following fertilization, p42MAPK is rapidly phosphorylated on tyrosine residues and concomitantly activated. Both tyrosine phosphorylation and activation of p42MAPK begin within 2-3 min of fertilization, peak at approximately 15 min, then rapidly decline and disappear around the end of meiosis I. Neither the tyrosine phosphorylated form of p42MAPK nor p42MAPK activity reappears during meiosis II or the succeeding mitotic cell cycles. High doses of molybdate, a potent PTPase inhibitor, block the phosphorylation of p42MAPK and entry into the cell cycle. Lower doses of molybdate delay both p42MAPK phosphorylation and the release from cell cycle arrest, but once cells have re-entered the cell cycle, they continue with near-normal timing. These results argue that the transient activation of p42MAPK at fertilization is a one-time event linked to release from cell cycle arrest. In trying to reconcile this one-time activation of p42MAPK in clam embryos with the recurring, M-phase specific activation of MBP/MAP kinases reported in other systems, we show that cdc2 kinase contributes a major portion of the MBP kinase activity in mitotic extracts. Furthermore, a small fraction of p42MAPK and other related kinases are present in p13suc1-bound material, cautioning against the use of p13suc1 beads for experiments where, in addition to cdc2, the unaccounted presence of other kinase activities could be misleading.
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PMID:Activation of p42 MAP kinase and the release of oocytes from cell cycle arrest. 132 52

The microtubule-associated protein tau is a major component of the paired helical filaments (PHFs) observed in Alzheimer's disease brains. The pathological tau is distinguished from normal tau by its state of phosphorylation, higher apparent M(r) and reaction with certain antibodies. However, the protein kinase(s) have not been characterized so far. Here we describe a protein kinase from brain which specifically induces the Alzheimer-like state in tau protein. The 42 kDa protein belongs to the family of mitogen activated protein kinases (MAPKs) and is activated by tyrosine phosphorylation. It is capable of phosphorylating Ser-Pro and Thr-Pro motifs in tau protein (approximately 14-16 P1 per tau molecule). By contrast, other proline directed Ser/Thr kinases such as p34(cdc2) combined with cyclin A or B have only minor effects on tau phosphorylation. We propose that MAP kinase is abnormally active in Alzheimer brain tissue, or that the corresponding phosphatases are abnormally passive, due to a breakdown of the normal regulatory mechanisms.
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PMID:Mitogen activated protein (MAP) kinase transforms tau protein into an Alzheimer-like state. 137 45

The p34cdc2 protein kinase is a component of maturation-promoting factor, the master regulator of the cell cycle in all eukaryotes. The activity of p34cdc2 is itself tightly regulated by phosphorylation and dephosphorylation. Predicted regulatory phosphorylation sites of Xenopus p34cdc2 were mutated in vitro, and in vitro-transcribed RNAs were injected into Xenopus oocytes. The cdc2 single mutants Thr-14----Ala and Tyr-15----Phe did not induce germinal vesicle breakdown (BVBD) upon microinjection into oocytes. In contrast, the cdc2 double mutant Ala-14/Phe-15 did induce GVBD. Both the Ala-14 and Ala-14/Phe-15p34cdc2 mutants were shown to coimmunoprecipitate cyclin B1 and to phosphorylate histone H1 in immune complex kinase assays. Microinjection of antisense oligonucleotides to c-mosXe was used to demonstrate the role of mos protein synthesis in the induction of GVBD by the Ala-14/Phe-15 cdc2 mutant. Thr-161 was also mutated. p34cdc2 single mutants Ala-161 and Glu-161 and triple mutants Ala-14/Phe-15/Ala-161 and Ala-14/Phe-15/Glu-161 failed to induce GVBD in oocytes and showed a decreased binding to cyclin B1 in coimmunoprecipitations. Each of the cdc2 mutants was also assayed by coinjection with cyclin B1 or c-mosXe RNA into oocytes. Several of the cdc2 mutants were found to affect the kinetics of cyclin B1 and/or mos-induced GVBD upon coinjection, although none affected the rate of progesterone-induced maturation. We demonstrate here the significance of Thr-14, Tyr-15, and Thr-161 of p34cdc2 in Xenopus oocyte maturation. In addition, these results suggest a regulatory role for mosXe in induction of oocyte maturation by the cdc2 mutant Ala-14/Phe-15.
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PMID:Requirement of mosXe protein kinase for meiotic maturation of Xenopus oocytes induced by a cdc2 mutant lacking regulatory phosphorylation sites. 137 75

Quiescent, full-grown Xenopus oocytes, which are arrested at the G2/M border of meiosis, contain an inactive 42-kDa mitogen-activated protein kinase (p42MAPK) that is activated when oocytes are stimulated to resume the meiotic cell cycle. We have made extracts from these oocytes that respond to four cell cycle activators: oncogenic [Val12]Ras protein, clam cyclins A delta 60 and B delta 97, and the phosphatase inhibitor okadaic acid. All four induce the tyrosine phosphorylation and activation of p42MAPK. Both cyclins and okadaic acid, but not [Val12]Ras, also lead to activation of the endogenous cyclin B/cdc2 kinase complexes in extracts of quiescent oocytes. Using extracts prepared from cycloheximide-arrested interphase cells, we show that although p42MAPK activation can occur in response to cyclin-activated cdc2, the Ras-induced activation of p42MAPK occurs without intervening cdc2 activation. Neither the nononcogenic [Gly12]Ras nor [Val12,Arg186]Ras, a mutant that lacks the C-terminal consensus sequence directing prenylation and subsequent membrane association, is an effective activator of p42MAPK in vitro.
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PMID:Oncogenic ras triggers the activation of 42-kDa mitogen-activated protein kinase in extracts of quiescent Xenopus oocytes. 138 61

The human weel protein, a homologue of the yeast weel protein, was expressed in E. coli and purified to homogeneity. The purified weel protein phosphorylated the tyrosine residue of cdc2 kinase in HeLa cell extracts in the presence of human cyclin B1. It also phosphorylated the tyrosine but not the threonine residue in the peptide of the amino-terminal of cdc2 kinase, although both these residues have been shown to be phosphorylated in higher eukaryotes in vivo. Furthermore, serine and tyrosine residues of the yeast weel protein are reportedly autophosphorylated in vitro, however the tyrosine residue of the human weel protein was autophosphorylated whereas the serine and threonine residues were not. These data indicate that human p50weel is tyrosine kinase and that it phosphorylated the tyrosine residue of the amino-terminal of cdc2 kinase in the presence of cyclin B1 and that the threonine residue is phosphorylated by another, unknown kinase.
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PMID:The cell cycle regulator, human p50weel, is a tyrosine kinase and not a serine/tyrosine kinase. 138 8

We have produced human cyclin A in Escherichia coli and investigated how it generates H1 kistone kinase activity when added to cyclin-free extracts prepared from parthenogenetically activated Xenopus eggs. Cyclin A was found to form a major complex with cdc2, and to bind cdk2/Eg1 only poorly. No lag phase was detected between the time when cyclin A was added and the time when H1 histone kinase activity was produced in frog extracts, even in the presence of 2 mM vanadate, which blocks cdc25 activity. Essentially identical results were obtained using extracts prepared from starfish oocytes. We conclude that formation of an active cyclin A-cdc2 kinase during early development escapes an inhibitory mechanism that delays formation of an active cyclin B-cdc2 kinase. This inhibitory mechanism involves phosphorylation of cdc2 on tyrosine 15. Okadaic acid (OA) activated cyclin B-cdc2 kinase and strongly reduced tyrosine phosphorylation of cyclin B-associated cdc2, even in the presence of vanadate. 6-dimethylamino-purine, a reported inhibitor of serine-threonine kinases, suppressed OA-dependent activation of cyclin B-cdc2 complexes. This indicates that the kinase(s) which phosphorylate(s) cdc2 on inhibitory sites can be inactivated by a phosphorylation event, itself antagonized by an OA-sensitive, most likely type 2A phosphatase. We also found that cyclin B- or cyclin A-cdc2 kinases can induce or accelerate conversion of the cyclin B-cdc2 complex from an inactive into an active kinase. Cyclin B-associated cdc2 does not undergo detectable phosphorylation on tyrosine in egg extracts containing active cyclin A-cdc2 kinase, even in the presence of vanadate. We propose that the active cyclin A-cdc2 kinase generated without a lag phase from neo-synthesized cyclin A and cdc2 may cause a rapid switch in the equilibrium of cyclin B-cdc2 complexes to the tyrosine-dephosphorylated and active form of cdc2 during early development, owing to strong inhibition of the cdc2-specific tyrosine kinase(s). This may explain why early cell cycles are so rapid in many species.
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PMID:Cyclin A potentiates maturation-promoting factor activation in the early Xenopus embryo via inhibition of the tyrosine kinase that phosphorylates cdc2. 138 1

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