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)

Mitogen-activated protein kinase (MAP) is involved in many signal transduction pathways and is activated during meiotic maturation in various species. In this study, we used the rat oocyte to identify some of the control mechanisms involved in MAP kinase activation which is triggered at resumption of meiosis. We examined the respective contribution of this kinase and maturation promoting factor (MPF), or cdc2 kinase, in the regulation of microtubule behavior and in the reorganization of chromatin during meiotic maturation. We found that the resumption of meiotic division in rat oocytes coincided with the activation of MPF and was followed 3 h later by the activation of MAP kinase. The activation of the two kinases also occurred in oocytes undergoing maturation in the presence of the protein phosphatase inhibitor okadaic acid (OA). However, the activation of cdc2 kinase was only partial, whereas activation of MAP kinase was accelerated and began 1 h after the resumption of meiosis, i.e. 2 h earlier than in control oocytes. We also showed that protein synthesis was required to activate MAP kinase, but not cdc2 kinase. However, once MAP kinase was activated, ongoing protein synthesis was not necessary to maintain its activity. These results suggest that a negative regulation of MAP kinase slows down its activation at the resumption of meiosis, mediated through the level of phosphatase activity. Moreover, MAP kinase activation requires protein synthesis, even upon phosphatase inactivation by OA, suggesting also the existence of a positive control pathway. We observed that during the first meiotic M-phase, the spindle did not form immediately after cdc2 kinase activation, but that its formation coincided with the appearance of MAP kinase activity. However, earlier activation of MAP kinase by treatment with OA did not lead to premature spindle formation, but instead a large aster formed consisting of long microtubules radiating from the condensed chromatin. In OA-treated oocytes, spindles did not form and an interphase network of microtubule developed with time. Thus, MAP kinase is unable to substitute for MPF under these conditions, its activity alone being insufficient to maintain the progression through meiotic maturation.
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PMID:Protein phosphatases control MAP kinase activation and microtubule organization during rat oocyte maturation. 901 23

The involvement of cell cycle-regulatory proteins in apoptosis of neuronally differentiated PC12 cells induced by the removal of nerve growth factor and serum was examined. Three major findings are presented. (1) Cdc2 kinase protein levels increased fivefold in apoptotic PC12 cells by day 3 of serum and nerve growth factor deprivation. Histone H1 kinase activity was increased significantly in p13(suc1) precipitates of apoptotic PC12 cells, which was due to increased activation and/or expression of cdc2 kinase. (2) The protein levels of cyclin-dependent kinase 4, cyclin D, and proliferating cell nuclear antigen that are normally expressed in the cell cycle were increased during neuronal PC12 cell apoptosis. (3) The levels of the catalytic subunit, but not the regulatory subunit of the calcium/calmodulin-dependent protein phosphatase 2B, decreased significantly concomitant with a significant decrease in protein phosphatase 2B activity early in the apoptotic process. Protein phosphatase 2A activity decreased slightly but significantly after 3 days of serum and nerve growth factor deprivation, and no alterations in protein phosphatase 1 were observed during the apoptotic process. These data demonstrate that certain cell cycle-regulatory proteins are inappropriately expressed and that alterations in specific phosphorylation events, as indicated by the increase in histone H1 kinase activity and the decrease in protein phosphatase 2B activity, are most likely occurring during apoptosis of PC12 cells. These observations support the hypothesis that apoptosis may be due in part to a nondividing cell's uncoordinated attempt to reenter and progress through the cell cycle.
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PMID:Select alterations in protein kinases and phosphatases during apoptosis of differentiated PC12 cells. 916 26

NuMA is a 236 kDa nuclear protein that is required for the organization of the mitotic spindle. To determine how NuMA redistributes in the cell during mitosis, we have examined the behavior of NuMA in a mammalian mitotic extract under conditions conducive to the reassembly of interphase nuclei. NuMA is a soluble protein in mitotic extracts prepared from synchronized cultured cells, but forms insoluble structures when the extract becomes non-mitotic (as judged by the inactivation of cdc2/cyclin B kinase and the disappearance of mpm-2-reactive antigens). These NuMA-containing structures are irregularly shaped particles of 1-2 microm in diameter and their assembly is specific because other nuclear components such as the lamins remain soluble in the extract under these conditions. NuMA is dephosphorylated during this assembly process, and the assembly of these NuMA-containing structures is catalyzed by protein dephosphorylation because protein kinase inhibitors enhance their formation and protein phosphatase inhibitors block their formation. Finally, immunodepletion demonstrates that NuMA is an essential structural component of these insoluble particles, and electron microscopy shows that the particles are composed of a complex interconnected network of foci. These results demonstrate that phosphorylation regulates the solubility of NuMA in a mammalian mitotic extract, and the spontaneous assembly of NuMA into extensive structures upon dephosphorylation supports the conclusion that NuMA serves a structural function.
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PMID:Phosphorylation regulates the assembly of NuMA in a mammalian mitotic extract. 920 89

Protein phosphorylation plays an essential role in regulating many cellular processes in eukaryotes. Signal transduction mechanisms that are reversibly controlled by protein phosphorylation require also protein phosphatases (PPs). Okadaic acid (OA), which is a potent inhibitor of protein phosphatase 2A (PP2A) and protein phosphatase 1, elicits phosphorylation of many proteins in unstimulated cells and induces different cellular responses, including transcriptional activation, shape changes, and pseudomitotic state. In this study, the effects of OA on rat thyroid cells (FRTL-5 strain) were analyzed to evaluate the role of serine/threonine phosphatases in hormone-induced thyroid cell proliferation. OA at a concentration range between 0.1 and 1 nM stimulated thyroid cell growth. Furthermore, 0.25 nM OA increased about 3.5-fold the thyrotropin (TSH)-induced DNA synthesis in quiescent cells. OA treatment also stimulated cell proliferation induced by drugs that mimic TSH effect, such as 8Br-cAMP and cholera toxin, suggesting that PP2A activity was relevant in the cAMP pathway activated by the hormone. Flow cytometry experiments showed that OA significantly increased the fraction of TSH-stimulated quiescent cells entering the S phase. In order to define the mechanisms underlying the observed stimulatory effect of OA on thyroid cell growth, expression of genes relevant in the G1-S phase transition was evaluated. A 2-fold increase in the level of cyclin D1 mRNA expression was found by Northern blot analysis in OA-treated cells. Although cdk2 gene expression was not modulated by the same OA treatment, an increase in Cdk2 protein was revealed by immunoprecipitation experiments. Moreover, OA modifies the phosphorylation pattern of the tumor suppressor retinoblastoma protein, a key event in the G1-S phase transition. Therefore, these experiments reveal that PP2A phosphatases play an important role in thyroid cell growth and can act at multiple sites in the TSH pathways driving cells to S phase.
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PMID:The phosphatase inhibitor okadaic acid stimulates the TSH-induced G1-S phase transition in thyroid cells. 926 Sep 13

The carboxy terminus of protein phosphatase 2A (PP2A) catalytic subunit is highly conserved. Seven out of the last nine residues, including two potential in vivo phosphorylation sites, threonine 304 and tyrosine 307, are completely invariant in all known PP2As. Mutational analysis of the carboxy terminus in vivo was facilitated by efficient immunoprecipitation of trimeric PP2A holoenzyme via an epitope-tagged catalytic subunit. The results indicate that the catalytic subunit carboxy terminus is important for complex formation with the PP2A 55 kDa regulatory B subunit, but not with polyomavirus oncogene, middle tumor antigen (MT), a viral B-type regulatory subunit. Replacing catalytic subunit threonine 304 or tyrosine 307 with a negatively charged amino acid abolished binding of the B subunit to the dimeric enzyme core and altered substrate specificity. Certain other amino acid substitutions of different size and/or charge also abolished or greatly reduced B subunit binding. Substitution of alanine at position 304 or phenylalanine at position 307 did not dramatically reduce B subunit binding or phosphatase activity in vitro, yet the latter substitutions are not found in naturally occurring PP2As. Thus, the wild-type residues are important for a yet unknown function in vivo. Additionally, deleting the carboxy terminal nine amino acids inhibited binding of the B subunit to the dimeric enzyme core, indicating a requirement for one or more of these amino acids for complex formation. MT interaction with the dimeric PP2A enzyme core was not inhibited by any of these mutations. Finally, unlike B subunit, MT does not activate the phosphatase activity of the PP2A heterodimer towards cdc2-phosphorylated histone H1.
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PMID:Protein phosphatase 2A subunit assembly: the catalytic subunit carboxy terminus is important for binding cellular B subunit but not polyomavirus middle tumor antigen. 928 86

The CAK1 gene encodes the major CDK-activating kinase (CAK) in budding yeast and is required for activation of Cdc28p for cell cycle progression from G2 to M phase. Here we describe the isolation of a mutant allele of CAK1 in a synthetic lethal screen with the Sit4 protein phosphatase. Analysis of several different cak1 mutants shows that although the G2 to M transition appears most sensitive to loss of Cak1p function, Cak1p is also required for activation of Cdc28p for progression from G1 into S phase. Further characterization of these mutants suggests that, unlike the CAK identified from higher eukaryotes, Cak1p of budding yeast may not play a role in general transcription. Finally, although Cak1 protein levels and in vitro protein kinase activity do not fluctuate during the cell cycle, at least a fraction of Cak1p associates with higher molecular weight proteins, which may be important for its in vivo function.
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PMID:The Cak1p protein kinase is required at G1/S and G2/M in the budding yeast cell cycle. 928 68

The nuclear protein phosphatase cdc25A has been postulated to be a protooncogene. The total nuclear phosphotyrosyl protein phosphatase (PTP) activity and the expression of cdc25A were compared in normal and cancerous colon epithelial tissue. Nuclei derived from normal mucosal epithelium and tumors were analyzed for phosphotyrosyl protein phosphatase activity using the malachite green assay and a synthetic phosphotyrosyl peptide based on the sequence of cdc2, a known cdc25A phosphotyrosyl protein substrate. Tumorigenesis resulted in elevated nuclear PTP activity (343.0 +/- 37.0% of normal epithelial PTP activity) in 52% (29 of 56) of colon tumors. In all cases elevated nuclear PTP activity correlated with an increase in the expression of cdc25A. The changes in PTP activity observed were not due to any increase in the rate of growth of the colonic mucosa as no corresponding changes occurred with PTP activity under conditions of rapid mucosal growth.
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PMID:Elevated expression of the cdc25A protein phosphatase in colon cancer. 959 96

Expression of the cdk1 (p34cdc2) gene is enhanced 5-10 fold as cells re-enter the cell cycle from quiescence in response to serum-refeeding or following exposure to the protein phosphatase 1/2A inhibitor okadaic acid. Transient transfection analysis of nested deletions of the human cdk1 promoter identified regions that confer sensitivity to okadaic acid on a CAT-reporter gene. Putative okadaic acid response elements (OARE) were located between nt -942 to -763 (Site I) and nt -416 to -186 (Site II) before transcription start. The Site I element has enhancer-like characteristics as activity is independent of sequence orientation. Mobility shift analysis of Site I revealed the presence of 2 high molecular weight complexes, one of which was enhanced in the presence of okadaic acid-treated cell extracts. Site I contained several sequence motifs with conserved homology to heat shock response element core sequences and homeobox protein binding sites. Site II contained a myb-binding site, a G1/S phase enhancer, and 2 retinoblastoma response elements flanking an E2F binding site. Enhancement of cdk1 expression appears dependent on 2 nonhomologous okadaic acid-sensitive promoter regions.
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PMID:Characterization of the enhancer-like okadaic acid response element region of the cyclin-dependent kinase 1 (p34cdc2) promoter. 961 75

The expression of the catalytic subunit of the maturation promoting factor (MPF), p34cdc2, was analyzed during meiosis and final growth of goat oocytes. Western blot analysis revealed the presence of p34cdc2 in fully grown oocytes (follicles > 3 mm in diameter) prior to and during meiotic maturation. p34cdc2 was present in partially competent oocytes at the germinal vesicle stage (follicles 0.5 to 0.8 mm and 1 to 1.8 mm in diameter). In contrast, p34cdc2 was not expressed in meiotically incompetent oocytes from small antral follicles (follicles < 0.5 mm in diameter). The amount of p34cdc2 increased with oocyte growth and acquistion of meiotic competence. Moreover, p34cdc2 accumulated in partially competent and incompetent oocytes within 27 hr of culture, but the level of p34cdc2 in incompetent oocytes remained very low and was not sufficient to allow spontaneous resumption of meiosis. The expression of the cdc2 gene was analyzed by polymerase-chain-reaction (PCR) on reverse transcribed mRNA. The presence of the cdc2 transcript was evidenced in both competent and incompetent oocytes at the germinal vesicle stage. These data indicate that a deficiency in the expression of p34cdc2 that could be regulated at the translational level, may be a limiting factor for meiotic competence acquistion in goat oocytes. We further investigated the mechanisms of MPF activation in competent and incompetent oocytes by using okadaic acid, a protein phosphatase inhibitor. Okadaic acid induced the premature resumption of meiosis associated with MPF activation in competent oocytes. In partially competent oocytes, okadaic acid induced premature meiosis reinitiation and MPF activation, but only after pre-culture for 10 hr. Acquisition of sensitivity to okadaic acid treatment was dependent on protein synthesis since it failed to occur when cycloheximide was added during the pre-culture period. Incompetent oocytes responded to okadaic acid treatment only after 27 hr of culture, when they had accumulated small amounts of p34cdc2. These data suggest that okadaic acid may bypass the subthreshold level of p34cdc2, provided the oocytes have synthesized some additional factors that remain to be identified.
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PMID:p34cdc2 expression and meiotic competence in growing goat oocytes. 962 1

Organization of intermediate filament, a major component of cytoskeleton, is regulated by protein phosphorylation/dephosphorylation, which is a dynamic process governed by a balance between the activities of involved protein kinases and phosphatases. Blocking dephosphorylation by protein phosphatase inhibitors such as okadaic acid (OA) leads to an apparent activation of protein kinase(s) and to genuine activation of phosphatase-regulated protein kinase(s). Treatment of 9L rat brain tumor cells with OA results in a drastically increased phosphorylation of vimentin, an intermediate filament protein. In-gel renaturing assays and in vitro kinase assays using vimentin as the exogenous substrate indicate that certain protein kinase(s) is activated in OA-treated cells. With specific protein kinase inhibitors, we show the possible involvement of the cdc2 kinase- and p38 mitogen-activated protein kinase (p38MAPK)-mediated pathways in this process. Subsequent in vitro assays demonstrate that vimentin may serve as an excellent substrate for MAPK-activated protein kinase-2 (MAPKAPK-2), the downstream effector of p38MAPK, and that MAPKAPK-2 is activated with OA treatment. Comparative analysis of tryptic phosphopeptide maps also indicates that corresponding phosphopeptides emerged in vimentin from OA-treated cells and were phosphorylated by MAPKAPK-2. Taken together, the results clearly demonstrate that MAPKAPK-2 may function as a vimentin kinase in vitro and in vivo. These findings shed new light on the possible involvement of the p38MAPK signaling cascade, via MAPKAPK-2, in the maintenance of integrity and possible physiological regulation of intermediate filaments.
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PMID:Identification of mitogen-activated protein kinase-activated protein kinase-2 as a vimentin kinase activated by okadaic acid in 9L rat brain tumor cells. 977 16

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