Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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)

Upon entering a cell the natural product rapamycin, like the structurally related immunosuppressant FK506, associates with members of the FKBP family of proteins. One or more of the resulting FKBP-rapamycin complexes blocks signaling pathways emanating from some growth factor receptors. Recently, the addition of rapamycin was shown to inhibit the phosphorylation and activation of a 70-kDa ribosomal S6 protein kinase, which normally occurs minutes after the activation of certain cytokine and growth factor receptors. We now report that rapamycin can be added 4 to 6 h after the addition of serum growth factors to quiescent human osteosarcoma cells and still arrest these cells in G1. This window of action correlates with the inducible appearance of a cyclin-dependent kinase (cdk) activity, and the induction of this activity is inhibited by the addition of rapamycin. Furthermore, p36cyclin D1 associates with this cdk protein complex in lysates of untreated cells, but does not associate with this cdk protein complex in lysates of rapamycin-treated cells. Together, these studies demonstrate that FKBP-rapamycin can modulate a cyclin-dependent kinase activity and a cyclin D1-cdk association during early G1 in MG-63 human osteosarcoma cells.
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PMID:FKBP-rapamycin inhibits a cyclin-dependent kinase activity and a cyclin D1-Cdk association in early G1 of an osteosarcoma cell line. 822 93

Human platelets provide an excellent model system for the study of phosphorylation events during signal transduction and cell adhesion. Platelets are terminally differentiated cells that exhibit rapid phosphorylation of many proteins upon agonist-induced activation and aggregation. We have sought to identify the kinases as well as the phosphorylated substrates that participate in thrombin-induced signal transduction and platelet aggregation. In this study, we have identified two forms of mitogen-activated protein kinase (MAPK), p42mapk and p44mapk, in platelets. The data demonstrate that p42mapk but not p44mapk becomes phosphorylated on serine, threonine, and tyrosine during platelet activation. Immune complex kinase assays, gel renaturation assays, and a direct assay for MAPK activity in platelet extracts all support the conclusion that p42mapk but not p44mapk shows increased kinase activity during platelet activation. The activation of p42mapk, independently of p44mapk, in platelets is unique since in other systems, both kinases are coactivated by a variety of stimuli. We also show that platelets express p90rsk, a ribosomal S6 kinase that has previously been characterized as a substrate for MAPK. p90rsk is phosphorylated on serine in resting platelets, and this phosphorylation is enhanced upon thrombin-induced platelet activation. Immune complex kinase assays demonstrate that the activity of p90rsk is markedly increased during platelet activation. Another ribosomal S6 protein kinase, p70S6K, is expressed by platelets but shows no change in kinase activity upon platelet activation with thrombin. Finally, we show that the increased phosphorylation and activity of both p42mapk and p90rsk does not require integrin-mediated platelet aggregation. Since platelets are nonproliferative cells, the signal transduction pathways that include p42mapk and p90rsk cannot lead to a mitogenic signal and instead may regulate cytoskeletal or secretory changes during platelet activation.
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PMID:p42 mitogen-activated protein kinase and p90 ribosomal S6 kinase are selectively phosphorylated and activated during thrombin-induced platelet activation and aggregation. 826 14

An unusual protein kinase gene, termed PfCPK, was isolated from Plasmodium falciparum. The gene, which contains five exons and four introns, encodes a product with a predicted length of 524 amino acids. The amino-terminal segment of the predicted protein contains all of the conserved sequences characteristic of a protein kinase catalytic domain and has a high homology to several protein serine-threonine kinase subfamilies (30-41% amino acid identities). These subfamilies include calcium/calmodulin-dependent protein kinases, calcium-dependent protein kinase, ribosomal S6 protein kinase, cyclic nucleotide-dependent protein kinases, protein kinase C, and the yeast SNF1 subfamily. All of these protein kinases are relatively close in the phylogeny tree and within the kinase catalytic domains have about 35% amino acid identities to each other, suggesting that PfCPK is also in this region of the phylogeny tree. An unusual feature of PfCPK is that its carboxyl-terminal segment displays homology to the EF hand calcium-binding proteins, for example 34% amino acid identity to chicken fast skeletal muscle troponin C and 35% amino acid identity to human calmodulin. Like troponin Cs and calmodulins, PfCPK also contains four EF hand calcium-binding motifs. Furthermore, the four introns in the PfCPK gene are all located in the carboxyl-terminal putative EF hand calcium-binding region (EF hand calcium-binding proteins from higher eukaryotes generally contain multiple introns). This combination of a protein kinase and an EF hand calcium-binding protein in a single polypeptide implies that PfCPK may be directly activated by calcium. Constructs containing the full-length PfCPK cDNA have been expressed in Escherichia coli at a high level to generate a 60-kDa recombinant protein. Compared with similar fractions from control cells, the fraction containing PfCPK recombinant protein exhibited an elevated protein kinase activity which was Ca(2+)-dependent.
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PMID:Gene structure and expression of an unusual protein kinase from Plasmodium falciparum homologous at its carboxyl terminus with the EF hand calcium-binding proteins. 844 Jul 20

FSH promotes the differentiation of ovarian follicular granulosa cells via a cAMP-dependent mechanism. Based upon the presence of a prominent phospholipid/diolein/Ca2+-independent myelin basic protein kinase activity in soluble extracts of proliferating immature rat granulosa cells, we determine whether this activity was attributable to the mitogen-activated protein kinases (MAPKs), one of the ubiquitous families of myelin basic protein kinases, and whether FSH acutely regulated the MAPKs in rat granulosa cells. Granulosa cells were obtained from large preantral follicles in ovaries of immature rats treated with 17beta-estradiol to promote granulosa cell proliferation. Exposure of granulosa cells, cultured overnight in serum-free medium containing 10 nM 17beta- estradiol, to 50 ng/ml FSH for 10 min promoted a 2- to 5- fold increase in MAPK activity. The effects of FSH were mimicked by forskolin and inhibited by the inhibitor of cAMP- dependent protein kinase H89, but were not inhibited by the tyrosine kinase inhibitor Ag-18. FSH also promoted increased phosphorylation of the 90-kDa ribosomal S6 protein kinase and phosphorylation of exogenous S6 protein. These results suggest that the cAMP-directed pathway by which FSH initiates granulosa cell differentiation includes activation of MAPKs.
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PMID:A stimulatory role of cyclic adenosine 3',5'-monophosphate in follicle-stimulating hormone-activated mitogen-activated protein kinase signaling pathway in rat ovarian granulosa cells. 860 10

The hexokinases, by converting glucose to glucose 6-phosphate, help maintain the glucose concentration gradient that results in the movement of glucose into cells through the facilitative glucose transporters. Hexokinase II (HKII) is the major hexokinase isoform in skeletal muscle, heart, and adipose tissue. Insulin induces HKII gene transcription in L6 myotubes, and this, in turn, increases HKII mRNA and the rates of HKII protein synthesis and glucose phosphorylation in these cells. Inhibitors of distinct insulin signaling pathways were used to dissect the molecular mechanism by which HKII gene expression is induced by insulin in L6 myotubes. Treatment with wortmannin, an inhibitor of phosphatidylinositol 3-kinase (PI 3-kinase), or with rapamycin, an inhibitor of the pathway from the insulin receptor to p70/p85 ribosomal S6 protein kinase (p70(s6k)), prevented the induction of HKII mRNA by insulin. In contrast, treatment with PD98059, an inhibitor of mitogen-activated protein kinase activation, had no effect on insulin-induced HKII mRNA. In addition, rapamycin blocked the insulin-induced expression of an HKII promoter-chloramphenicol acetyltransferase fusion gene transiently transfected into L6 myotubes, whereas PD98059 had no such effect. These results suggest that a phosphatidylinositol 3-kinase/p70(s6k)-dependent pathway is required for regulation of HKII gene transcription by insulin and that the Ras-mitogen-activated protein kinase-dependent pathway is probably not involved.
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PMID:Analysis of the signaling pathway involved in the regulation of hexokinase II gene transcription by insulin. 866 15

The gene mutated in the human genetic disorder ataxia-telangiectasia (A-T) has been described recently (Savitsky et al., 1995a) and the complete coding sequence of this gene, ATM, has been reported (Savitsky et al., 1995b). The derived amino acid sequence demonstrates significant homologies to several proteins containing a phosphatidylinositol 3-kinase (PI3-kinase) domain, including the yeast TOR proteins and the human protein FRAP. Since the TOR and FRAP proteins are targets for the immunosuppressive drug rapamycin, we have investigated the effects of this compound on A-T cells. We report here that 3 A-T cell lines are more resistant than control cells to rapamycin's growth inhibiting effects but were more sensitive to the PI3-kinase inhibitor wortmannin. As expected rapamycin (1 nM) inhibited the rate of exit of control cells from G1 phase but failed to perturb the progression of A-T cells. This difference in cell cycle progress after rapamycin treatment is reflected in ribosomal S6 protein kinase (p70S6k) by both a downward mobility shift on SDS-PAGE and inhibition of activity. Furthermore, the G1 phase cyclin-dependent kinase, cyclin E-cdk2, was rapidly inhibited in control cells post-treatment, whereas in A-T cells it took considerably longer to observe inhibition. There was no evidence that a GST-FKBP12 fusion protein specifically precipitated the ATM protein in the presence of rapamycin in either cell type. These results demonstrate that the ATM protein is not a direct target for rapamycin but its functional loss renders cells more resistant to this compound.
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PMID:Rapamycin resistance in ataxia-telangiectasia. 880 86

The presence of the 90-kDa ribosomal S6 protein kinase (p90(rsk)) in isolated rat pancreatic acini was demonstrated by Western blotting and immunoprecipitation with anti-p90(rsk). Cholecystokinin (CCK) activated p90(rsk) activity in a time- and dose-dependent manner and increased its phosphorylation. The threshold concentration of CCK was 10 pM and the maximal effect was seen at 1 nM. An increase in p90(rsk) was observed 1 min after 1 nM CCK stimulation, reaching a maximum at 10 min, when p90(rsk) activity was increased 5.4-fold. Carbachol and bombesin, but not vasoactive intestinal peptide, also activated p90(rsk). CCK-induced activation of p90(rsk) appears to be mediated by protein kinase C (PKC), since 12-O-tetradecanoylphorbol-13-acetate increased p90(rsk) activity 5.3-fold. GF-109293X, a potent inhibitor of PKC, strongly inhibited CCK-evoked p90(rsk) activity. Treatment of acini with ionomycin or 1,2-bis(2-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid had no effect, indicating that mobilization of intracellular Ca2+ by CCK is not important in p90(rsk) activation. Although there were some quantitative differences in the extent of inhibition, the specific inhibitors [rapamycin, wortmannin, mitogen-activated protein kinase (MAPK) kinase inhibitor PD98059, and GF-109293X] had parallel effects on p90(rsk) and p42(mapk) activities, consistent with a model in which p90(rsk) can be regulated in acini by MAPK.
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PMID:CCK activates p90rsk in rat pancreatic acini through protein kinase C. 912 59

The metabolic effects of insulin are initiated by the binding of insulin to the extracellular domain of the insulin receptor within the plasma membrane of muscle and adipose and liver cells. The subsequent activation of the intracellular tyrosine protein kinase activity of the receptor leads to autophosphorylation of the receptor as well as phosphorylation of a number of intracellular proteins. This gives rise to the activation of Ras and phosphatidylinositol 3-kinase and hence to the activation of a number of serine/threanine protein kinases. Many of these kinases appear to be arranged in cascades, including a cascade that results in the activation of mitogen-activated protein kinase and another that may result in the activation of protein kinase B, leading to the inhibition of glycogen synthase kinase-3 and the activation of the 70 kiloDalton ribosomal S6 protein kinase (p70 S6 kinase). We have explored the role of these early events in the the stimulation of glycogen, fatty acid, and protein synthesis by insulin in rat epididymal fat cells. Comparisons have been made between the metabolic effects of insulin and those of epidermal growth factor, since these 2 agents have contrasting effects on p70 S6 kinase and mitogen-activated protein kinase. The effects of wortmannin (which inhibits phosphatidylinositol 3-kinase), and rapamycin (which blocks the activation of p70 S6 kinase) have also been studied. These and other studies indicate that the mitogen-activated protein kinase cascade is probably not important in the acute metabolic effects of insulin, but may have a role in the regulation of gene transcription and hence the more long-term effects of insulin. The short-term metabolic effects of insulin appear to involve at least 3 distinct signaling pathways: (1) those leading to increases in glucose transport and the activation of glycogen synthase, acetyl-CoA carboxylase, eukaryotic initiation factor-2B, and phosphodiesterase, which may involve phosphatidylinositol 3-kinase and protein kinase B; (2) those leading to some of the effects of insulin on protein synthesis (formation of eukaryotic initiation factor-4F complex, S6 phosphorylation, and activation of eukaryotic elongation factor-2), which may involve phosphatidylinositol 3-kinase and p70 S6 kinase; and finally, (3) that leading to the activation of pyruvate dehydrogenase, which is unique in apparently not requiring activation of phosphatidylinositol 3-kinase.
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PMID:Multiple signaling pathways involved in the metabolic effects of insulin. 929 55

Increased phosphorylation of the translational repressor protein 4E-BP1 was found in the cell line derived from the tumor induced in Syrian hamster by Rous sarcoma virus (RSV). This was accompanied by its dissociation from the complex with initiation factor eIF4E. The ribosomal S6 protein kinase p70S6k is supposed to be regulated by the same or a closely related rapamycin-sensitive signalling pathway to that which modulates 4E-BP1. Phosphorylation and activity of p70S6k were found to be also increased in RSV-transformed H19 cells that express significantly higher amounts of the Src protein (p60src) relative to the non-transformed hamster fibroblasts NIL-2. The increased activity and phosphorylation of p70S6k were blocked by rapamycin, indicating that the rapamycin-sensitive pathway is involved in its regulation in v-src-transformed hamster fibroblasts. In agreement with this, rapamycin reduced the expression of elongation factor eEF1alpha (whose translation is regulated by a rapamycin-sensitive mechanism thought to involve p70S6k) and did not affect the production of a housekeeping protein, alpha-tubulin, in these cells. Synthesis of Src protein was also inhibited in cells treated with rapamycin. However, treatment of cells with a concentration of rapamycin sufficient to completely inhibit the activity and phosphorylation of p70S6k resulted in only partial de-phosphorylation of 4E-BP1 and its re-association with eIF4E in the transformed cells, indicating that additional rapamycin-insensitive mechanisms/pathways are implicated in the control of 4E-BP1 phosphorylation in RSV-transformed hamster fibroblasts. Over-expression of eIF4E favours cell proliferation and can lead to a transformed phenotype, while over-expression of 4E-BP1 has the opposite effect. The altered signalling to the phosphorylation of 4E-BP1 in RSV-transformed cells, which leads to its dissociation from eIF4E and thus relief of inhibition of eIF4E function, may therefore represent an important regulatory mechanism in malignant cell growth.
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PMID:Rapamycin-resistant phosphorylation of the initiation factor-4E-binding protein (4E-BP1) in v-SRC-transformed hamster fibroblasts. 1036 46

The effects of cyclic AMP (cAMP) on cell proliferation are cell type specific. Although the growth-inhibitory effects of cAMP have been well studied, much less is known regarding how cAMP stimulates proliferation. We report that cAMP stimulates proliferation through both protein kinase A (PKA)-dependent and PKA-independent signaling pathways and that phosphatidylinositol 3-kinase (PI3K) is required for cAMP-stimulated mitogenesis. In cells where cAMP is a mitogen, cAMP-elevating agents stimulate membrane ruffling, Akt phosphorylation, and p70 ribosomal S6 protein kinase (p70s6k) activity. cAMP effects on ruffle formation and Akt were PKA independent but sensitive to wortmannin. In contrast, cAMP-stimulated p70s6k activity was repressed by PKA inhibitors but not by wortmannin or microinjection of the N-terminal SH2 domain of the p85 regulatory subunit of PI3K, indicating that p70s6k and Akt can be regulated independently. Microinjection of highly specific inhibitors of PI3K or Rac1, or treatment with the p70s6k inhibitor rapamycin, impaired cAMP-stimulated DNA synthesis, demonstrating that PKA-dependent and -independent pathways contribute to cAMP-mediated mitogenesis. Direct elevation of PI3K activity through microinjection of an antibody that stimulates PI3K activity or stable expression of membrane-localized p110 was sufficient to confer hormone-independent DNA synthesis when accompanied by elevations in p70s6k activity. These findings indicate that multiple pathways contribute to cAMP-stimulated mitogenesis, only some of which are PKA dependent. Furthermore, they demonstrate that the ability of cAMP to stimulate both p70s6k- and PI3K-dependent pathways is an important facet of cAMP-regulated cell cycle progression.
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PMID:Protein kinase A-dependent and -independent signaling pathways contribute to cyclic AMP-stimulated proliferation. 1045 35


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