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)

Brain tau protein is phosphorylated in vitro by cdc2 and MAP2 kinases, obtained through immunoaffinity purification from rat brain extracts. The phosphorylation sites are located on the tau molecule both upstream and downstream of the tubulin-binding motifs. A synthetic peptide comprising residues 194-213 of the tau sequence, which contains the epitope recognized by the monoclonal antibody tau-1, is also efficiently phosphorylated in vitro by cdc2 and MAP2 kinases. Phosphorylation of this peptide markedly reduces its interaction with the antibody tau-1, as it has been described for tau protein in Alzheimer's disease. Both cdc2 and MAP2 kinases are present in brain extracts obtained from Alzheimer's disease patients. Interestingly, the level of cdc2 kinase may be increased in patient brains as compared with non-demented controls. These results suggest a role for cdc2 and MAP2 kinases in phosphorylating tau protein at the tau-1 epitope in Alzheimer's disease.
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PMID:Implication of brain cdc2 and MAP2 kinases in the phosphorylation of tau protein in Alzheimer's disease. 132 85

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

Numerous studies of cell cycle control in dividing cells have pointed to the central role of a 34-kDa histone H1 kinase (p34cdc2) complexed with regulatory subunits known as cyclins. We now report that p34cdc2-cyclin may also participate in signal transduction in nonproliferating, terminally differentiated cells, in this instance during sheep platelet activation. Immunological evidence for the presence of a p34cdc2 cognant in sheep platelet cytosol was obtained with antipeptide antibodies raised against peptide sequences in the conserved PSTAIRE and C-terminus regions of murine cdc2. The immunoreactive 32-kDa protein was adsorbed onto p13suc1-Sepharose, which selectively binds p34cdc2. A 58-kDa protein that also bound to p13suc1-Sepharose was identified as cyclin A on the basis of its size and immunoreactivity with two different anticyclin peptide antibodies. The p34cdc2-cyclin A complex was regulated during platelet activation. Its histone H1 phosphorylating activity was stimulated 2-fold in p13suc1-Sepharose extracts from platelets that had been exposed to platelet-activating factor or thrombin for 1 min prior to harvesting. Our findings imply that the p34cdc2-cyclin complex may serve alternative functions besides control of cell division.
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PMID:Platelet-activating factor- and thrombin-induced stimulation of p34cdc2-cyclin histone H1 kinase activity in platelets. 186 29

The yeast Cdc7 protein is indispensable to initiation of nuclear DNA replication, based on the phenotype of the conditional, temperature-sensitive (ts) cdc7 mutants at the restrictive temperature. This protein has likewise been implicated in commitment to meiotic DNA recombination and induced mutagenesis, which may result from error-prone DNA repair. Our previous work revealed sequence similarity between the Cdc7 protein and known protein kinases. To determine whether it possesses kinase activity, we have immunoprecipitated the protein from Cdc7-overproducing yeast cells by using polyclonal antibodies raised against a nondenatured beta-galactosidase-Cdc7 fusion protein. In this report, we demonstrate that Cdc7 immune complexes are capable of phosphorylating mammalian histone H1 on serine and/or threonine residues. Immune complexes derived from cells harboring the cdc7-2 ts mutant gene on a high copy number plasmid possess a thermolabile kinase activity. Thus, we postulate that Cdc7 may regulate the various DNA metabolic pathways by phosphorylating one or more target substrates. Because Cdc7 kinase acts downstream of Cdc28/cdc2 kinase function at "start," the transition from G1 to S phase in the cell cycle may be the result of a cascade of protein phosphorylation.
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PMID:DNA metabolism gene CDC7 from yeast encodes a serine (threonine) protein kinase. 216 54

Interferons (IFN) regulate transcription of certain genes playing a role in cell proliferation. Targets of IFN action may include tumor suppressor genes such as the retinoblastoma (RB) gene and cytokines such as transforming growth factor beta 1 (TGF beta 1) and IFN beta which are inhibitors of epithelial cell proliferation. Using reverse transcription followed by PCR amplification, an increase of those growth inhibitory gene mRNA levels (TGF beta 1, IFN beta and RB) were found after interferon treatment in condylomas harboring non-oncogenic human papilloma virus (HPV 6/11) types, in an oncogenic HPV 16-containing cell line, and in a HPV negative, epidermoid carcinoma cell line. In addition, immunodetection by Western blot demonstrated a higher proportion of underphosphorylated (active form) retinoblastoma gene protein (pRB) after IFN treatment due to the decrease in the phosphorylating cdc2 kinase levels. Changes in the phosphorylation pattern of pRB together with the increased expression of those inhibitory genes represent a growth inhibited state in those cells as demonstrated by diminished c-myc expression. Since the extent of c-myc inhibition was significantly lower in the case of oncogenic HPV infection, a role of viral oncoproteins in abrogation of the antiproliferative effect of IFN therapy could be considered. These results demonstrate a new mechanism via which IFNs exert their antiproliferative effect on HPV-infected cells by affecting the expression and phosphorylation of the RB tumor suppressor gene, through the inhibitory TGF beta 1/IFN beta cytokine pathway.
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PMID:Interferon treatment enhances the expression of underphosphorylated (biologically-active) retinoblastoma protein in human papilloma virus-infected cells through the inhibitory TGF beta 1/IFN beta cytokine pathway. 751 81

Transcription factor IIH (TFIIH) contains a kinase capable of phosphorylating the carboxy-terminal domain (CTD) of the largest subunit of RNA polymerase II (RNAPII). Here we report the identification of the Cdk-activating kinase (Cak) complex (Cdk7 and cyclin H) as a component of TFIIH after extensive purification of TFIIH by chromatography. We find that affinity-purified antibodies directed against cyclin H inhibit TFIIH-dependent transcription and that both cyclin H and Cdk7 antibodies inhibit phosphorylation of the CTD of the largest subunit of the RNAPII in the preinitiation complex. Cak is present in at least two distinct complexes, TFIIH and a smaller complex that is unable to phosphorylate RNAPII in the preinitiation complex. Both Cak complexes, as well as recombinant Cak, phosphorylate a CTD peptide. Finally, TFIIH was shown to phosphorylate both Cdc2 and Cdk2, suggesting that there could be a link between transcription and the cell cycle machinery.
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PMID:Cdk-activating kinase complex is a component of human transcription factor TFIIH. 753 95

The major kinase capable of phosphorylating tau in a porcine brain extract was suggested to be a brain cdc2-like kinase, called cdk5. Tau protein components of microtubules assembled in the brain extract using ATP were phosphorylated to a higher level, and showed a slower electrophoretic mobility than those assembled with GTP. Most of this phosphorylation and electrophoretic mobility shift, that occurred in the brain extract incubated with ATP, were inhibited by butyrolactone I, a specific inhibitor of cdc2 kinase and cdk5. Further, butyrolactone I inhibited phosphorylation of tau exogenously added to the brain extract by approximately 70%. cdk5 purified from porcine brain decreased the electrophoretic mobility of dephosphorylated tau by in vitro phosphorylation of tau to the level present in microtubules polymerized with ATP. cdc2 kinase purified from starfish oocytes also phosphorylated tau and shifted its electrophoretic mobility to an extent greater than that obtained with cdk5. Western blot analysis showed that cdc2 kinase phosphorylated epitopes recognized by SMI31, 33, 34, and tau 1 antibodies in tau proteins , while cdk5 phosphorylated the site recognized by SMI33 (corresponding to phosphorylation at Ser235 in the longest human tau isoform) and partially phosphorylated the tau 1 site. Phosphorylation experiments performed on tau in brain extracts, in the presence of okadaic acid, suggested the presence of both okadaic acid-sensitive and -insensitive phosphatases acting on phosphorylated Ser235. Rat tau that was prepared immediately after decapitation showed a similar phosphorylation state to tau in microtubules polymerized with ATP, suggesting that tau is relatively phosphorylated in vivo.
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PMID:Evidence for cdk5 as a major activity phosphorylating tau protein in porcine brain extract. 759 34

D-type cyclins couple extracellular signals to the biochemical machinery that governs progression through G1 phase of the mammalian cell division cycle. Induced by growth factor stimulation, D-type cyclins assemble with cyclin-dependent kinases CDK4 and CDK6 to form holoenzymes that facilitate exit from G1 by phosphorylating key substrates, including the retinoblastoma protein. Activation of the holoenzymes is antagonized by polypeptide inhibitors of CDK activity, which are induced by antiproliferative signals. Once cells pass a late G1 restriction point, cyclin-D-dependent kinases are unnecessary for completion of the cell cycle, implying that their primary role is to sense the cell's readiness to replicate DNA and to enforce the commitment to enter S phase.
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PMID:D-type cyclins. 761 Apr 82

MPM-2 antigens, a discrete set of phosphoproteins that contain similar phosphoepitopes (the MPM-2 epitope), are associated with various mitotically important structures. The central mitotic regulator cdc2 kinase has been proposed to induce M-phase by phosphorylating many proteins which might include the MPM-2 antigens. To clarify the relationship of cdc2 kinase and the MPM-2 antigens, we developed an in vitro assay that enabled us to specifically detect the kinases that phosphorylate the MPM-2 epitope (ME kinases) in crude cell extracts. Two different ME kinase activities were identified in unfertilized Xenopus eggs, neither of which was cdc2 kinase, but both appeared to be activated by the introduction of cdc2 kinase into oocytes or oocyte extract. The two ME kinases differed in molecular size, substrate specificity, peptide components, and MPM-2 reactivity. The larger one, ME kinase-H, phosphorylated several MPM-2 antigens, while the smaller one, ME kinase-L, phosphorylated mainly one. We purified ME kinase-L to near homogeneity by sequential chromatography and showed that it has the characteristics of the 42-kD microtubule-associated protein (MAP) kinase. Our results support the previous finding that MAP kinase is activated during Xenopus oocyte maturation and suggest that MAP kinase may contribute to oocyte maturation induction by phosphorylating one subtype of MPM-2 epitope.
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PMID:At least two kinases phosphorylate the MPM-2 epitope during Xenopus oocyte maturation. 769 20

The M-phase inducer, Cdc25C, is a dual-specificity phosphatase that directly phosphorylates and activates the cyclin B/Cdc2 kinase complex, leading to initiation of mitosis. Cdc25 itself is activated at the G2/M transition by phosphorylation on serine and threonine residues. Previously, it was demonstrated that Cdc2 kinase is capable of phosphorylating and activating Cdc25, suggesting the existence of a positive feedback loop. In the present study, kinases other than Cdc2 that can phosphorylate and activate Cdc25 were investigated. Cdc25 was found to be phosphorylated and activated by cyclin A/Cdk2 and cyclin E/Cdk2 in vitro. However, in interphase Xenopus egg extracts with no detectable Cdc2 and Cdk2, treatment with the phosphatase inhibitor microcystin activated a distinct kinase that could phosphorylate and activate Cdc25. Microcystin also induced other mitotic phenomena such as chromosome condensation and nuclear envelope breakdown in extracts containing less than 5% of the mitotic level of Cdc2 kinase activity. These findings implicate a kinase other than Cdc2 and Cdk2 that may initially activate Cdc25 in vivo and suggest that this kinase may also phosphorylate M-phase substrates even in the absence of Cdc2 kinase.
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PMID:Phosphorylation and activation of the Xenopus Cdc25 phosphatase in the absence of Cdc2 and Cdk2 kinase activity. 778 47

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