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)

Cyclic AMP can either activate or inhibit the mitogen-activated protein kinase (MAPK) pathway in different cell types; MAPK activation has been observed in B-Raf-expressing cells and has been attributed to Rap1 activation with subsequent B-Raf activation, whereas MAPK inhibition has been observed in cells lacking B-Raf and has been attributed to cAMP-dependent protein kinase (protein kinase A)-mediated phosphorylation and inhibition of Raf-1 kinase. We found that cAMP stimulated MAPK activity in CHO-K1 and PC12 cells but inhibited MAPK activity in C6 and NB2A cells. In all four cell types, cAMP activated Rap1, and the 95- and 68-kDa isoforms of B-Raf were expressed. cAMP activation or inhibition of MAPK correlated with activation or inhibition of endogenous and transfected B-Raf kinase. Although all cell types expressed similar amounts of 14-3-3 proteins, approximately 5-fold less 14-3-3 was associated with B-Raf in cells in which cAMP was inhibitory than in cells in which cAMP was stimulatory. We found that the cell type-specific inhibition of B-Raf could be completely prevented by overexpression of 14-3-3 isoforms, whereas expression of a dominant negative 14-3-3 mutant resulted in partial loss of B-Raf activity. Our data suggest that 14-3-3 bound to B-Raf protects the enzyme from protein kinase A-mediated inhibition; the amount of 14-3-3 associated with B-Raf may explain the tissue-specific effects of cAMP on B-Raf kinase activity.
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PMID:Cell type-specific regulation of B-Raf kinase by cAMP and 14-3-3 proteins. 1093 30

The Raf-1 kinase domain is kept in an inactive state by the N-terminal regulatory domain. Activation of the kinase domain occurs following release from the N-terminal repression and possible catalytic upregulation. To distinguish the regulatory mechanisms that directly influence the catalytic activity of the enzyme from those which act through the inhibitory domain, the catalytic domain of Raf-1 (CR3) was expressed in COS-7 cells. The role of phosphorylation in the direct regulation of this domain was determined by substituting non-phosphorylatable amino acids for known serine and tyrosine phosphorylation sites. The intrinsic activity of each mutant protein was determined as well as stimulation by v-Src and phorbol esters. Both v-Src and phorbol esters were potent activators of CR3, requiring the serine 338/339 (p21-activated protein kinase, Pak) and tyrosine 340/341 (Src) phosphorylation sites for full stimulation of CR3. In contrast, loss of the serine 497/499 protein kinase C phosphorylation sites had little effect on CR3 activation by either v-Src or phorbol esters. Loss of serine 621, a 14-3-3 adaptor-protein-binding site, prevented activation of CR3 by v-Src or phorbol esters and partially decreased the high basal activity of the kinase fragment. When co-expressed in COS-7 cells, 14-3-3 associated strongly with full-length Raf-1, weakly with wild-type CR3 and not at all with the A621 and D621 CR3 mutants. The role of 14-3-3 in maintaining the activity of the catalytic domain of Raf-1 was investigated further by performing peptide-competition studies with wild-type CR3, wild-type CR3 and v-Src or constitutively active CR3 (CR3[YY340/341DD]). In each case, incubation of the proteins with a phosphoserine-621 Raf-1 peptide, which we show displaced Raf-1 and CR3[YY340/341DD] from 14-3-3, was found to substantially reduce catalytic activity. Taken together, our results support a model of Raf regulation in which the activity of the Raf-1 catalytic domain is directly upregulated by phosphorylation, following relief of inhibition by the N-terminal regulatory domain upon Ras-GTP binding. Moreover, the presence of serine 621 in the free catalytic fragment is required for full CR3 activation by stimulatory factors, and the continuous presence of 14-3-3 at this site is necessary for retaining activity once the kinase is activated.
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PMID:Regulation of the Raf-1 kinase domain by phosphorylation and 14-3-3 association. 1099 57

The glucocorticoid receptor (GR) functions as a ligand-dependent transcription factor. In the present study we describe a specific immunoaffinity chromatography purification of GR from liver cytosol from adrenalectomized rats that may be used to identify hitherto unknown cytosolic GR interacting proteins. We have identified the ubiquitously expressed 14-3-3 as well as Raf-1, a downstream effector of Ras, as GR co-purifying proteins. In our semi-quantitative analysis liganded/activated GR showed the strongest interaction with 14-3-3 and Raf-1, but 14-3-3 was also found to co-purify with GR in a nonliganded/nonactivated state. By extensive salt washes we were also able to demonstrate that the glucocorticoid induced interaction between GR, 14-3-3, and Raf-1, respectively, is remarkably stable and withstood 2.4 m salt. The interaction between GR and 14-3-3 was also verified by 14-3-3 co-immunoprecipitation studies. Our observations that GR and Raf-1 are found within the same protein complex ("receptosome") in the cytoplasm of rat liver cells could provide a mechanistic explanation for glucocorticoid effects on the Raf-1-Ras signaling pathway.
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PMID:Glucocorticoid receptor interaction with 14-3-3 and Raf-1, a proposed mechanism for cross-talk of two signal transduction pathways. 1100 17

We have found that the expression of five 14-3-3 protein isoforms is induced during the retinoic acid (RA)-mediated differentiation of mouse embryonal carcinoma F9 cells. The induced expression of the 14-3-3 proteins is presumed to have a role in enhancing the mitogen-activated protein kinase (MAPK) activity during RA-mediated F9 cell differentiation, because using genetically engineered budding yeast we showed that these isoforms enhanced the signaling in the MAPK cascade mainly through the interaction with Raf-1. Then we assessed the role of increased MAPK activity in F9 cell differentiation by interfering with signaling in the MAPK cascade in F9 cells. The exogenous expression of dominant-negative MEK1 efficiently abrogated RA-mediated induction of the cytokeratins EndoA and EndoC in the F9 cells. These results suggest that the 14-3-3 proteins play a role in the efficient induction of the cytokeratins during F9 cell differentiation through their signal enhancing activity in the MAPK cascade.
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PMID:14-3-3 protein family members have a regulatory role in retinoic acid-mediated induction of cytokeratins in F9 cells. 1101 Aug 14

Raf-1 is a serine/threonine protein kinase that plays a critical role in mitogenic signal transduction. Raf-1 activation requires 14-3-3 binding to Raf-1 as an essential step. This binding is regulated through phosphorylation of Ser259 and Ser621 of Raf-1, each constituting part of the consensus motif for the binding of Raf-1 to 14-3-3. However, Raf-1 kinase kinase(s) that phosphorylates these sites remains unknown. In this report, we detected Raf-1 kinase kinase activity using recombinant glutathione-S-transferase-Raf-1 fusion proteins as substrate of in situ gel kinase assay. Ser259 was phosphorylated by a kinase with a molecular weight of 90 kDa, which was suggested to be Rsk judging from the molecular size, the time course of activation after EGF stimulation and the elution pattern from an anion-exchange column. The Raf-1 fragment containing Ser621 was phosphorylated by kinases with molecular weights of 85, 60, 50 and 48 kDa but not by the kinase that phosphorylates Ser259. These results suggest that although Ser259 and Ser621 lie in the same amino acid sequence motif for 14-3-3 binding, these two regulatory sites for this binding are phosphorylated by different protein kinases.
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PMID:Detection of kinases that phosphorylate 14-3-3 binding sites of Raf-1 using in situ gel kinase assay. 1104 Dec 43

The 14-3-3 proteins are associated with proto-oncogene and oncogene products. Here, we generated NIH 3T3 cells overexpressing the beta isoform of the 14-3-3 proteins (14-3-3 beta) to examine the function of this isoform in cellular proliferation and oncogenic transformation. Overexpression of 14-3-3 beta in NIH 3T3 cells stimulated cell growth and supported anchorage-independent growth in soft agar medium and tumor formation in nude mice. To elucidate the molecular mechanisms of 14-3-3 beta-mediated NIH 3T3 transformation, we examined the activity of mitogen-activated protein kinase (MAPK) after serum stimulation. Overexpression of 14-3-3 beta augmented MAPK activity after serum stimulation, and MAPK activity correlated well with the amount of 14-3-3 beta expression. The colony-forming ability of NIH 3T3 cells overexpressing 14-3-3 beta in soft agar medium was efficiently abolished by exogenous expression of a dominant-negative mutant of MEK1 and 14-3-3 beta physically interacted with Raf-1 in these cells. These findings indicate that 14-3-3 beta has oncogenic potential, mainly through enhancement of Raf-1 activation and resultant augmentation of signaling in the MAPK cascade.
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PMID:Role of the beta isoform of 14-3-3 proteins in cellular proliferation and oncogenic transformation. 1106 70

The potential contribution of cyclin-dependent protein kinase 5 (cdk5) to hyperphosphorylate protein tau, as claimed in Alzheimer's disease, was investigated in vivo. We generated single, double, and triple transgenic mice that coexpress human cdk5 and its activator p35 as well as human protein tau in cerebral neurons. Whereas expression and increased cdk5-kinase activity was obtained, as measured in vitro and demonstrated in vivo, neither murine nor human protein tau was appreciably phosphorylated in the brain of double and triple transgenic mice. These mice behaved and reproduced normally. Silver impregnation and immunohistochemistry of brain sections demonstrated that neurofilament proteins became redistributed in apical dendrites of cortical neurons. This suggested a cytoskeletal effect, but no other relevant brain pathology became apparent. These observations indicate that cdk5/p35 is not a major protein tau kinase and that cdk5/p35 did not cause neurodegeneration in mouse brain, as opposed to cdk5/p25.
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PMID:Coexpression of human cdk5 and its activator p35 with human protein tau in neurons in brain of triple transgenic mice. 1116 38

Maintenance of genome integrity requires a checkpoint that restrains mitosis in response to DNA damage [1]. This checkpoint is enforced by Chk1, a protein kinase that targets Cdc25 [2--7]. Phosphorylated Cdc25 associates with 14-3-3 proteins, which appear to occlude a nuclear localization signal (NLS) and thereby inhibit Cdc25 nuclear import [6, 8--14]. Proficient checkpoint arrest is thought to require Cdc25 nuclear exclusion, although definitive evidence for this model is lacking. We have tested this hypothesis in fission yeast. We show that elimination of an NLS in Cdc25 causes Cdc25 nuclear exclusion and a mitotic delay, as predicted by the model. Attachment of an exogenous NLS forces nuclear inclusion of Cdc25 in damaged cells. However, forced nuclear localization of Cdc25 fails to override the damage checkpoint. Thus, nuclear exclusion of Cdc25 is unnecessary for checkpoint enforcement. We propose that direct inhibition of Cdc25 phosphatase activity by Chk1, as demonstrated in vitro with fission yeast and human Chk1 [15, 16], is sufficient for proficient checkpoint regulation of Cdc25 and may be the primary mechanism of checkpoint enforcement in fission yeast.
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PMID:Nuclear exclusion of Cdc25 is not required for the DNA damage checkpoint in fission yeast. 1116 80

The nitrate reductase activity from Chlamydomonas reinhardtii was not altered when extracts were incubated with yeast 14-3-3 proteins in the presence of Mg-ATP. However, the C. reinhardtii extracts contained 14-3-3 proteins capable of inhibiting the spinach nitrate reductase, raising the question of their physiological substrates. Two C. reinhardtii proteins of about 48 and 35 kDa were eluted from 14-3-3 affinity chromatography columns and bound to 14-3-3s in overlay assays. The 48-kDa protein corresponded to the cytosolic isoform of glutamine synthetase (GS1). The GSI was phosphorylated by a Ca2+-and calmodulin-dependent protein kinase partially purified from the alga. However, neither phosphorylation nor 14-3-3 binding seemed to change GS catalytic activity.
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PMID:Cytosolic glutamine synthetase and not nitrate reductase from the green alga Chlamydomonas reinhardtii is phosphorylated and binds 14-3-3 proteins. 1121 47

The transcription factor, forkhead in rhabdomyosarcoma (FKHR), is phosphorylated at three amino acid residues (Thr-24, Ser-256 and Ser-319) by protein kinase B (PKB)alpha. In the present study, mutagenesis has been used to study the roles of these phosphorylation events in regulating FKHR function in transfected HEK-293 cells. We find that the overexpression of FKHR[S256A] (where Ser-256-->Ala) blocks PKB activity in cells, preventing phosphorylation of the endogenous substrates FKHRL1 and glycogen synthase kinase-3. Thus some reported effects of overexpression of this and other mutants may be indirect, and result from suppression of the phosphorylation of other sites on FKHR and/or other PKB substrates. For example, we have shown that Thr-24 phosphorylation alone is critical for interaction with 14-3-3 proteins, and that the substitution of Ser-256 with an alanine residue indirectly blocks 14-3-3 protein binding by preventing the phosphorylation of Thr-24. We also found that insulin-like growth factor (IGF)-1 and serum-induced nuclear exclusion of FKHR[S256A] depends on the degree of overexpression of this mutant. Our results indicated that the interaction of FKHR with 14-3-3 proteins was not required for IGF-1-stimulated exclusion of FKHR from the nucleus. We present evidence in support of another mechanism, which depends on the phosphorylation of Ser-256 and may involve the masking of a nuclear localization signal. Finally, we have demonstrated that the failure of IGF-1 to suppress transactivation by FKHR[S256A] is not explained entirely by its failure to bind 14-3-3 proteins or to undergo nuclear exclusion. This result suggests that Ser-256 phosphorylation may also suppress transactivation by FKHR by yet another mechanism, perhaps by disrupting the interaction of FKHR with target DNA binding sites and/or the function of the transactivation domain.
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PMID:Roles of the forkhead in rhabdomyosarcoma (FKHR) phosphorylation sites in regulating 14-3-3 binding, transactivation and nuclear targetting. 1123 65

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