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)

Protein kinase B (PKB, also named as Akt or RAC-protein kinase), that is activated by cellular stress such as heat shock and hyperosmotic treatment, was revealed to be activated by oxidative stress and by chemical stressors of CdCl2 and NaAsO2 by measuring the activity of the enzyme immunoprecipitated from the transfected COS-7 cells. Upon stress treatment, a 30-kDa phosphoprotein was co-immunoprecipitated with PKB from the cells metabolic labeled with [32P]orthophosphate. The phosphoprotein was identified as Hsp27, a small heat shock protein, by immunoblot analysis and co-immunoprecipitation. The association of Hsp27 was specific to PKB as the heat shock protein was not co-immunoprecipitated with other protein kinases such as protein kinase C and PKN. When the cells were treated with H2O2, PKB was activated gradually and the association of Hsp27 with PKB increased concurrently with the enhancement of PKB activity. In heat-shocked cells, activation of PKB and the association of Hsp27 were detected immediately after the treatment, and the association of the heat shock protein decreased while PKB kept stimulated activity when the cells were further incubated at 37 degrees C. These results suggest that Hsp27 is involved in the activation process of PKB in the signal transduction pathway of various forms of stress.
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PMID:Activation of protein kinase B (Akt/RAC-protein kinase) by cellular stress and its association with heat shock protein Hsp27. 923 90

PI3K was originally discovered as a lipid kinase involved in the phosphorylation of the inositol ring in position -3, leading to the synthesis of phosphatidyl-inositol-3-4 bisphosphate. The enzyme purified from rat liver is an heterodimer of two subunits of 85 and 110 KD respectively: it phosphorylates the D3 hydroxyl of phosphoinositides to produce phosphatidyl-inositol-3-phosphate. So far the function of the 3-phospho-inositide is unclear. It is likely that the entire phospholipid serves as a second messenger, since no phospholipase C has yet been found that can cleave the inositol group with a 3 phosphate residue. However the activation targets of this second messenger are still poorly known. Recently a novel/serine/theronine kinase was insolated by three groups and called differently RAC, PKB and AKT. It exhibits sequence homology with protein kinase A and C at the carboxyl terminal, whereas the aminoterminal domain has a plectrin homology. Activation of ATK is inhibited by wortmannin, a specific inhibitor of PI3K at very low concentrations. Furthermore inositol-3-phosphate can activate ATK in vitro. In addition very recently, a linkage of G-protein coupled receptors to the MAP kinase signalled pattern through PI3K has been discovered. But what is downstream of this pathway? 70S6 kinase is an attractive candidate since this kinase, involved in protein synthesis, is activated by AKT in vivo. Interestingly AKT is the cellular protooncogene of v-ATK and this implies that ATK induces a pathway of oncogenic transformation. AKT is inhibited by dominant negative mutants of ras and thus involved in the ras-raf-MAP kinase pathway. The role of PI3K is still indefinite but it must have a paramount importance in cell signalling since nearly all growth factor receptors recruit this enzyme and that the activity of fundamental growth factor receptors like PDGF, EGF and insulin are blocked by the specific inhibitor wortmannin, leading to the conclusion that the PI3K signal is much important in mitogenesis, protein synthesis, membrane ruffling, cell transformation and cell cycle progression.
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PMID:PI3K signal and DNA repair: a short commentary. 926 40

The pleckstrin homology domains (PH domains) derived from four different proteins, the N-terminal part of pleckstrin, RAC-protein kinase, diacylglycerol kinase and the 130 kDa protein originally cloned as an inositol 1,4,5-trisphosphate binding protein, were analysed for binding of inositol phosphates and derivatives of inositol lipids. The PH domain from pleckstrin bound inositol phosphates according to a number of phosphates on the inositol ring, i.e. more phosphate groups, stronger the binding, but a very limited specificity due to the 2-phosphate was also observed. On the other hand, the PH domains from RAC-protein kinase and diacylglycerol kinase specifically bound inositol 1,3,4,5,6-pentakisphosphate and inositol 1,4,5,6-tetrakisphosphate most strongly. The PH domain from the 130 kDa protein, however, had a preference for inositol 1,4,5-trisphosphate and 1,4,5,6-tetrakisphosphate. Comparison was also made between binding of inositol 1,4,5-trisphosphate, inositol 1,3,4,5-tetrakisphosphate and soluble derivatives of their corresponding phospholipids. The PH domains examined, except that from pleckstrin, showed a 8- to 42-times higher affinity for inositol 1,4,5-trisphosphate than that for corresponding phosphoinositide derivative. However, all PH domains had similar affinity for inositol 1,3,4,5-tetrakisphosphate compared to the corresponding lipid derivative. The present study supports our previous proposal that inositol phosphates and/or inositol lipids could be important ligands for the PH domain, and therefore inositol phosphates/inositol lipids may have the considerable versatility in the control of diverse cellular function. Which of these potential ligands are physiologically relevant would depend on the binding affinities and their cellular abundance.
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PMID:Distinct specificity in the binding of inositol phosphates by pleckstrin homology domains of pleckstrin, RAC-protein kinase, diacylglycerol kinase and a new 130 kDa protein. 943 33

The activation of phosphatidylinositol (PtdIns) 3-kinase is considered to be a key event occurring after stimulation of cells with growth factors. The proto-oncogenic protein kinase B (PKB; also known as RAC protein kinase or Akt) has recently been shown to be a downstream target of PtdIns 3-kinase and may be involved in cell survival. We therefore asked whether stimulation of neuronal cells with nerve growth factor (NGF), on which certain types of neurons are dependent for survival, causes activation of PKB. Stimulation of serum-starved PC12 rat pheochromocytoma cells with NGF caused an increase of up to 14-fold in PKB activity. This activation was detected within 1 min of stimulation and occurred at NGF concentrations that are consistent with TrkA-mediated signaling. PKB activation was accompanied by a decrease in electrophoretic mobility of the kinase, which is characteristic of phosphorylation. Both PKB activation and mobility changes were prevented by wortmannin, indicating the upstream involvement of PtdIns 3-kinase in these events. Analyses employing isoform-specific antibodies for immunoprecipitation suggested that all three isoforms of PKB (alpha, beta and gamma) are activated in response to NGF. G-protein-coupled-receptor agonists, lysophosphatidic acid (lyso-PtdH) and thrombin, which induce rapid neurite retraction, neither stimulated PKB activity, nor affected NGF-induced or insulin-induced kinase activation. Wortmannin treatment did not prevent neurite retraction induced by lyso-PtdH or thrombin. These data suggest that PtdIns 3-kinase and PKB are not involved in cytoskeletal changes mediated by the small GTPase Rho.
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PMID:Nerve growth factor promotes activation of the alpha, beta and gamma isoforms of protein kinase B in PC12 pheochromocytoma cells. 949 84

Protein kinase B (PKB), also known as Akt or RAC-PK, is a serine/threonine kinase that can be activated by growth factors via phosphatidylinositol 3-kinase. In this article we show that PKCzeta but not PKCalpha and PKCdelta can co-immunoprecipitate PKB from CHO cell lysates. Association of PKB with PKCzeta was also found in COS-1 cells transiently expressing PKB and PKCzeta, and moreover we found that this association is mediated by the AH domain of PKB. Stimulation of COS-1 cells with platelet-derived growth factor (PDGF) resulted in a decrease in the PKB-PKCzeta interaction. The use of kinase-inactive mutants of both kinases revealed that dissociation of the complex depends upon PKB activity. Analysis of the activities of the interacting kinases showed that PDGF-induced activation of PKCzeta was not affected by co-expression of PKB. However, both PDGF- and p110-CAAX-induced activation of PKB were significantly abolished in cells co-expressing PKCzeta. In contrast, co-expression of a kinase-dead PKCzeta mutant showed an increased induction of PKB activity upon PDGF treatment. Downstream signaling of PKB, such as the inhibition of glycogen synthase kinase-3, was also reduced by co-expression of PKCzeta. A clear inhibitory effect of PKCzeta was found on the constitutively active double PKB mutant (T308D/S473D). In summary, our results demonstrate that PKB interacts with PKCzeta in vivo and that PKCzeta acts as a negative regulator of PKB.
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PMID:Protein kinase Czeta is a negative regulator of protein kinase B activity. 1008 94

Akt (also known as PKB or RAC-PK) is an intracellular serine/threonine kinase involved in regulating cell survival. Although this makes it a promising target for the discovery of drugs to treat human cancer, a complicating factor may be the role played by Akt in insulin signalling. Two human isoforms, Akt-1 and Akt-2, have been described previously and a third isoform has been identified in rats (here termed Akt-3, but also called RAC-PK-gamma or PKB-gamma). We describe the identification of the corresponding human isoform of Akt-3. The gene encoding human Akt-3 was localized to chromosome 1q43-44. The predicted protein sequence is 83% identical to human Akt-1 and 78% identical to human Akt-2, and contains a pleckstrin homology domain and a kinase domain. In contrast to the published rat Akt-3 isoform, human and mouse Akt-3 also possess a C-terminal 'tail' that contains a phosphorylation site (Ser472) thought to be involved in the activation of Akt kinases. In addition to phosphorylation of Ser472, phosphorylation of Thr305 also appears to contribute to the activation of Akt-3 because mutation of both these residues to aspartate increased the catalytic activity of Akt-3, whereas mutation to alanine inhibited activation. Akt-3 activity could be inhibited by the broad spectrum kinase inhibitor staurosporine and by the PKC inhibitor Ro 31-8220, but not by other PKC or PKA inhibitors tested. Although Akt-3 is expressed widely, it is not highly expressed in liver or skeletal muscle, suggesting that its principle function may not be in regulating insulin signalling. These observations suggest that Akt-3 is a promising target for the discovery of novel chemotherapeutic agents which do not interfere with insulin signalling.
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PMID:Molecular cloning, expression and characterization of the human serine/threonine kinase Akt-3. 1049 Nov 92

Growth control of African trypanosomes in the mammalian host is coupled to differentiation of a non-dividing life cycle stage, the stumpy bloodstream form. We show that a protein kinase with novel domain architecture is important for growth regulation. Zinc finger kinase (ZFK) has a kinase domain related to RAC and S6 kinases flanked by a FYVE-related zinc finger and a phox (PX) homology domain. To investigate the function of the kinase during cyclical development, a stable transformation procedure for bloodstream forms of differentiation-competent (pleomorphic) Trypanosoma brucei strains was established. Deletion of both allelic copies of ZFK by homologous recombination resulted in reduced growth of bloodstream-form parasites in culture, which was correlated with an increased rate of differentiation to the non-dividing stumpy form. Growth and differentiation rates were returned to wild-type level by ectopic ZFK expression. The phenotype is stage-specific, as growth of procyclic (insect form) trypanosomes was unaffected, and Deltazfk/Deltazfk clones were able to undergo full cyclical development in the tsetse fly vector. Deletion of ZFK in a differentiation-defective (monomorphic) strain of T. brucei did not change its growth rate in the bloodstream stage. This suggests a function of ZFK associated with the trypanosomes' decision between either cell cycle progression, as slender bloodstream form, or differentiation to the non-dividing stumpy form.
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PMID:Deletion of a novel protein kinase with PX and FYVE-related domains increases the rate of differentiation of Trypanosoma brucei. 1145 98

T-cell biological responses appear to involve the complex interaction of T-cell surface receptors, intracellular signaling molecules and the cytoskeleton. Both the serine/threonine protein kinase families protein kinase C (PKC) and protein kinase B or RAC-PK (AKT/PKB) have been implicated in signal transmission leading to activation, differentiation as well as cellular survival of T-lymphocytes. The PKC gene family consists of nine diverse isotypes (PKC alpha, beta, gamma, delta, epsilon, xi, eta, theta; and iota), the AKT/PKB gene family includes three kinases (AKT1/PKB alpha, AKT2/PKB beta, AKT3/PKB gamma). Here, we attempt to summarize the regulation as well as downstream signaling pathways of PKC and AKT/PKB isotypes, that may act additive in TCR/CD28 induced proliferation and survival of peripheral CD4+ T-lymphocytes.
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PMID:Protein kinase C and AKT/protein kinase B in CD4+ T-lymphocytes: new partners in TCR/CD28 signal integration. 1204 76

The serine/threonine kinase AKT, also known as PKB or RAC-PK, is a key molecule for protecting cells from undergoing apoptosis. Several studies have suggested that the AKT-mediated survival-signaling pathway is an attractive target for cancer chemotherapy: (1) the AKT pathway is relatively inactive in resting cells; (2) amplification of the AKT gene occurs in some tumors; (3) loss of the tumor suppressor gene PTEN (phosphatase and tensin homolog deleted on chromosome 10) is common in tumors and its loss constitutively activates AKT; (4) AKT is activated at the cancer invasion front. To clarify which drugs exhibit their cytotoxicity by inhibiting the AKT pathway, we screened anticancer drugs that could downregulate phospho-AKT levels and AKT kinase activity. We found that UCN-01 (7-hydroxystaurosporine), heat-shock protein 90 (HSP90) inhibitors, and topotecan (10-hydroxy-9-dimethylaminomethyl-(S)-camptothecin) possessed the ability to interfere with the AKT pathway. UCN-01 directly suppressed upstream AKT kinase 3-phosphoinositide-dependent protein kinase-1 (PDK1) (IC(50) <33 nM) both in vitro and in tumor xenografts. HSP90 inhibitors and topotecan suppressed AKT activity via indirectly downregulating PDK1 and phosphatidylinositide-3-OH kinase activities. Transfection of the constitutively active AKT complementary DNA into cells attenuated the cytotoxic effects of the drugs, indicating that inhibition of the AKT pathway plays an important role in exerting their cytotoxic effects. These results strongly suggest that the AKT-mediated survival-signaling pathway is a promising and attractive target for cancer chemotherapy.
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PMID:Survival-signaling pathway as a promising target for cancer chemotherapy. 1281 31

Epithelial-mesenchymal transition (EMT) describes a process occurring during development and oncogenesis by which epithelial cells obtain fibroblast-like properties and show reduced cell adhesion and increased motility. In this report, we demonstrated typical EMT in human mammary epithelial MCF10A small interfering (si)RNA gelsolin-knockdown cells. EMT was characterized by fibroblastic morphology, loss of contact inhibition and focus formation in monolayer growth, enhanced motility and invasiveness in vitro, increased actin filaments, overexpression of RAC, activation of both extracellular signal-regulated kinase and AKT, inactivation of glycogen synthase kinase-3, conversion of cadherin from the E- to N-type and induction of the transcription factor Snail. These results suggested that gelsolin functions as a switch that controls E- and N-cadherin conversion via Snail, and demonstrated that its knockdown leads to EMT in human mammary epithelial cells and possibly to the development of human mammary tumors.
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PMID:siRNA gelsolin knockdown induces epithelial-mesenchymal transition with a cadherin switch in human mammary epithelial cells. 1621 50

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