EC:2.7.11.13 - FACTA Search

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Query: EC:2.7.11.13 (protein kinase C)
49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Pleckstrin, the prototypic protein containing two copies of the pleckstrin homology domain, is a prominent substrate of protein kinase C in platelets and neutrophils. Both cell types have p85 subunit-containing phosphoinositide 3-kinase (p85/PI3K) and non-p85-containing PI3K (PI3Kgamma) that is activated by betagamma subunits of heterotrimeric GTP-binding proteins. We have shown that a PI3K product, phosphatidylinositol (PI) 3,4,5-trisphosphate, promotes pleckstrin phosphorylation in platelets. Since pleckstrin homology domains are thought to interact with Gbetagamma heterodimers and/or PI(4,5)P2, we have examined the effects of recombinant pleckstrins on platelet PI3Kgamma and p85/PI3K activities. Depending upon its phosphorylation/charged state, pleckstrin inhibits PI3Kgamma, but not p85/PI3K. Pleckstrin-mediated inhibition of PI3Kgamma is overcome by excess Gbetagamma and is restricted to PI(4,5)P2 as substrate, i.e. pleckstrin does not inhibit phosphorylation of PI()P or PI. Consistent with this, activation of protein kinase C by exposure of platelets to beta-phorbol diester (to increase endogenous pleckstrin phosphorylation) prior to platelet lysis causes inhibition of Gbetagamma-stimulatable PI3K activity only with respect to PI(4,5)P2 substrate. This phosphopleckstrin-mediated inhibition is overcome by increasing concentrations of Gbetagamma. We propose that phosphorylation of pleckstrin may constitute an important inhibitory mechanism for PI3Kgamma-mediated cell signaling.
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PMID:Phosphopleckstrin inhibits gbetagamma-activable platelet phosphatidylinositol-4,5-bisphosphate 3-kinase. 881 Feb 77

The mitogen-activated protein kinases (MAPKs) ERK-1 and ERK-2 are activated by a wide variety of oncogenes and extracellular stimuli. The MAPKs participate in a signalling cascade downstream of growth factor/cytokine receptors, Ras, Raf, and MEK. However, MAPK activation is more complicated than a simple linear pathway, and the evidence presented here supports a model of multiple, temporally distinct pathways converging on MAPK which are differentially utilized by various stimuli and cell types. In addition to MEK-dependent MAPK activation, we provide evidence for MEK-independent regulation of the MAPKs. Our results suggest that phosphatidylinositol-3-kinases (PI(3)K) or conventional protein kinase C isoforms (cPKCs) partially contribute to MEK-dependent activation. Importantly, we also find that PI3K and cPKCs play a major role in the MEK-independent, prolonged MAPK activation by platelet-derived growth factor signalling. This finding is of interest as the maintained activation of MAPK has been correlated by others to the regulation of cell proliferation and differentiation.
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PMID:Evidence for MEK-independent pathways regulating the prolonged activation of the ERK-MAP kinases. 913 64

Using a guinea pig gastric longitudinal smooth muscle preparation, we have compared the contractile signaling pathways triggered by the thrombin receptor-activating peptide, TFLLR-NH2 (TF) and by epidermal growth factor-urogastrone (EGF). In addition to inhibitors of tyrosine kinase [tyrphostin 47/AG213, genistein and the src-selective inhibitor CP118,556/PP1], cyclooxygenase (indomethacin, INDO) and diacylglycerol lipase (U57, 908), we also used the signal pathway probe inhibitors of mitogen-activated protein-kinase-kinase (MEK:PD98059), phosphatidylinositol 3'-kinase [PI3K: Wortmannin (WM) and LY294002], protein kinase C [PKC: GF109203X (GF)], and of the EGF-receptor kinase (PD153035). We found that in addition to the inhibition of both TF and EGF-stimulated contractions by the inhibitors of tyrosine kinase, cyclooxygenase and diacylglycerol lipase, the actions of TF and EGF were also attenuated by PD98059, WM/LY294002 and GF. However, PD153035 blocked only EGF-triggered contractions. The contractile actions of both TF and EGF were dependent on extracellular calcium. In contrast, the contractile action of arachidonic acid, via a presumed cyclooxygenase product that mediated the contractions caused by both TF and EGF, was not blocked by any of the signal pathway probe inhibitors. The contractile actions of both TF and EGF were accompanied by increases in tissue phosphotyrosyl proteins and an increase in tissue c-src kinase activity. We conclude that protease-activated receptor no. 1- (thrombin receptor) mediated contractions in the logitudial muscle, like EGF receptor-activated responses, require the influx of extracellular calcium and use parallel signal pathways upstream of the cyclooxygenase step, involving MEK, PI3K, kinase C and possibly cellular src. The TF-induced response did not involve trans-activation of the EGF receptor kinase; but the converse (i.e., trans-activation of protease-activated receptor no. 1 (thrombin receptor) by the EGF receptor kinase) could not be ruled out.
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PMID:Parallel contractile signal transduction pathways activated by receptors for thrombin and epidermal growth factor-urogastrone in guinea pig gastric smooth muscle: blockade by inhibitors of mitogen-activated protein kinase-kinase and phosphatidyl inositol 3'-kinase. 953 28

STAT proteins become activated upon tyrosine and serine phosphorylation, are subsequently translocated from the cytosol to the nucleus where they exert DNA-binding activity. Several STAT binding consensus motifs have been identified in the promoters of distinct genes. These consensus elements mediate STAT recruitment and influence the kind of STAT proteins that are bound at a specific promoter site. Recent structure function analyses have revealed conserved amino terminal sequences to be crucial for phosphatase dependent deactivation of the STAT proteins. To date an increasing amount of data is available concerning the on- and off-regulation of STAT activity. Considerable convergence as well as crosstalk has been shown between the JAK-STAT pathway and the MAPK, RAS, PI3K, PKC, and PKA involving pathways. Moreover, the nature of the genes that are regulated by STAT proteins as well as the cell functions that result from STAT activation are of great current interest. Understanding the critical functional role of STAT mediated signalling events as well as their regulation by interfering pathways provides new insights into the mechanisms involved in malignant cell proliferation.
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PMID:The JAK-STAT pathway: signal transduction involved in proliferation, differentiation and transformation. 961 75

We have previously reported that, in venous myocytes, Gbetagamma scavengers inhibit angiotensin AT1A receptor-induced stimulation of L-type Ca2+ channels (1). Here, we demonstrate that intracellular infusion of purified Gbetagamma complexes stimulates the L-type Ca2+ channel current in a concentration-dependent manner. Additional intracellular dialysis of GDP-bound inactive Galphao or of a peptide corresponding to the Gbetagamma binding region of the beta-adrenergic receptor kinase completely inhibited the Gbetagamma-induced stimulation of Ca2+ channel currents. The gating properties of the channel were not affected by intracellular application of Gbetagamma, suggesting that Gbetagamma increased the whole-cell calcium conductance. In addition, both the angiotensin AT1A receptor- and the Gbetagamma-induced stimulation of L-type Ca2+ channels were blocked by pretreatment of the cells with wortmannin, at nanomolar concentrations. Correspondingly, intracellular infusion of an enzymatically active purified recombinant Gbetagamma-sensitive phosphoinositide 3-kinase, PI3Kgamma, mimicked Gbetagamma-induced stimulation of Ca2+ channels. Both Gbetagamma- and PI3Kgamma-induced stimulations of Ca2+ channel currents were reduced by protein kinase C inhibitors suggesting that the Gbetagamma/PI3Kgamma-activated transduction pathway involves a protein kinase C. These results indicate for the first time that Gbetagamma dimers stimulate the vascular L-type Ca2+ channels through a Gbetagamma-sensitive PI3K.
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PMID:Gbetagamma dimers stimulate vascular L-type Ca2+ channels via phosphoinositide 3-kinase. 1009 29

Because tyrosine kinase blockade prevents protection by ischemic preconditioning (p.c.) in several species, activation of tyrosine kinase appears to be critical for cardioprotection. The tyrosine kinase's identity, however, is unknown. The present study tested whether activation of a receptor tyrosine kinase, the insulin receptor, could mimic p.c. and if the mechanism of protection was similar to that of p.c. Isolated rabbit hearts were subjected to 30 min of regional ischemia and 2 h of reperfusion. Infarct size was determined by triphenyltetrazolium staining and expressed as a percentage of the area at risk. Infarct size in control hearts was 32.6 +/- 2.3%. A 5-min infusion of insulin (5 mU/ml) followed by a 10-min washout period prior to ischemia significantly reduced infarction to 14.7 +/- 2.1% (P < 0.05). The tyrosine kinase inhibitor genistein (50 microM) given around the insulin infusion blocked protection (28.9 +/- 2.8%). However, when present during the onset of ischemia, genistein had no effect on protection triggered by insulin (14.0 +/- 2.4%; P < 0.05). Inhibition of either PKC by polymyxin B (50 microM) or KATP channels by 5-hydroxydecanoate (100 microM) also failed to prevent protection by insulin (17.5 +/- 3.2% and 17.6 +/- 3.0%, respectively). However, the reduction in infarct size by insulin was significantly attenuated by wortmannin (100 nM), a selective inhibitor of phosphatidylinositol 3-kinase (PI3K, 28.3 +/- 2.2%). Insulin was still able to protect the heart when given only during the reperfusion period (13.2 +/- 3.4%). P.c. reduced infarction to 12.8 +/- 2.0% (P < 0.05) and still offered significant protection in the presence of wortmannin (22.1 +/- 2.4%; P < 0.05). In conclusion, activation of the insulin receptor reduces infarct size in the rabbit heart even when instituted upon reperfusion. However, the mechanism of protection is quite different from that of p.c. and involves activation of PI3K but not PKC or KATP channels.
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PMID:Myocardial protection by insulin is dependent on phospatidylinositol 3-kinase but not protein kinase C or KATP channels in the isolated rabbit heart. 1042 37

Wild-type or mutant betaPDGF receptors were introduced into A431 cells that lack endogenous PDGF receptors. PDGF stimulates JNK1 activity in a dose- and time-dependent manner in cells expressing the wild-type receptor. A receptor mutant lacking all the binding sites for SHP-2, GAP, PI3K, and PLC-gamma fails to activate JNK1. Receptor mutants with no binding site for either SHP-2 or GAP can fully activate JNK1 but those which do not bind either PI3K or PLC-gamma are unable to induce JNK1 activation. PDGF-dependent JNK1 activation was reduced upon cell pretreatment with wortmannin or GF109203X and is completely abrogated by chronic PMA stimulation. Altogether, these results indicate that PDGF activates JNK1 through a pathway that involves both PI3K and PLC-gamma and subsequent activation of protein kinase C.
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PMID:JNK/SAPK activation by platelet-derived growth factor in A431 cells requires both the phospholipase C-gamma and the phosphatidylinositol 3-kinase signaling pathways of the receptor. 1044 79

At the moment of hemostasis, the platelet must be able to reorganize its cytoskeleton through a complexly orchestrated signaling cascade that is regulated, in part, by polyphosphoinositides. In the past 6 years, evidence has accumulated that PH domains bind these polyphosphoinositides and play a role in cytoskeletal changes. Work to date implies that the amino-terminal PH domain of pleckstrin induces a shift of F-actin towards the cell cortex and participates in the production of lamellipodia. The effect of pleckstrin on actin is, in turn, regulated by the phosphorylation of pleckstrin by PKC. Evidence also suggests that PH domains of Dbl family exchange factors play a role in the PI3K-stimulated activation of Rac. It is likely that the PH domains of pleckstrin, as well as the PH domains of the Dbl family of exchange factors, are only a few examples of PH domains that are able to influence the organization of the cytoskeleton.
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PMID:Pleckstrin homology domains and phospholipid-induced cytoskeletal reorganization. 1060 30

Endocytosis of Na(+),K(+)-ATPase molecules in response to G protein-coupled receptor stimulation requires activation of class I(A) phosphoinositide-3 kinase (PI3K-I(A)) in a protein kinase C-dependent manner. In this paper, we report that PI3K-I(A), through its p85alpha subunit-SH3 domain, binds to a proline-rich region in the Na(+),K(+)-ATPase catalytic alpha subunit. This interaction is enhanced by protein kinase C-dependent phosphorylation of a serine residue that flanks the proline-rich motif in the Na(+),K(+)-ATPase alpha subunit and results in increased PI3K-I(A) activity, an effect necessary for adaptor protein 2 binding and clathrin recruitment. Thus, Ser-phosphorylation of the Na(+),K(+)-ATPase catalytic subunit serves as an anchor signal for regulating the location of PI3K-I(A) and its activation during Na(+),K(+)-ATPase endocytosis in response to G protein-coupled receptor signals.
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PMID:Phosphoinositide-3 kinase binds to a proline-rich motif in the Na+, K+-ATPase alpha subunit and regulates its trafficking. 1082 93

Interaction of GH with the cell-surface GH receptor (GHR) causes activation of the GHR-associated tyrosine kinase, JAK2, and consequent triggering of signaling cascades including the STAT, Ras/Raf/MEK1/MAP kinase, and insulin receptor substrate-1(IRS-1)/PI3kinase pathways. We previously showed that IRS- and GHR-deficient 32D cells that stably express the rabbit GHR and rat IRS-1 (32D-rbGHR-IRS-1) exhibited markedly enhanced GH-induced proliferation and MAP kinase (ERK1 and ERK2) activation compared with cells expressing only the GHR (32D-rbGHR). We now examine biochemical mechanism(s) by which IRS-1 augments GH-induced MAP kinase activation. Time-course experiments revealed a similarly transient (maximal at 15 min) GH-induced ERK1 and ERK2 activation in both 32D-rbGHR and 32D-rbGHR-IRS-1 cells, but, consistent with our prior findings, substantially greater activation was seen in the IRS-1-containing cells. In both cells, GH-induced MAP kinase activation was markedly blunted by the MEK1 inhibitor, PD98059, but not by the PKC inhibitor, GF109203X. Interestingly, pretreatment with the PI3K inhibitor, wortmannin (EC50 approximately 10 nM), significantly reduced GH-induced MAP kinase activation in both 32D-rbGHR and 32D-rbGHR-IRS-1 cells. This same pattern in both cells of IRS-1-dependent augmentation and IRS-1-independent wortmannin sensitivity was also observed for GH-induced activation of Akt and MEK1 (using state-specific antibody blotting for both), despite the lack of difference in GHR, JAK2, SHP-2, p85, Akt, Ras, Raf-1, MEK1, ERK1, or ERK2 abundance between the two cells. A different PI3K inhibitor, LY294002 (50 microM), substantially inhibited (roughly 72%) GH-induced MAP kinase activation in 32D-rbGHR-IRS-1 cells, but only marginally (and statistically insignificantly) inhibited GH-induced MAP kinase activation in 32D-rbGHR cells. Because GH-induced Akt activation was completely inhibited in both cells by the same concentration of LY294002, these findings indicate that the wortmannin sensitivity of both the IRS-1-independent and -dependent GH-induced MAP kinase activation may reflect the activity of another wortmannin-sensitive target(s) in addition to PI3K in mediation of GH-induced MAP kinase activation in these cells. Notably, GH-induced STAT5 tyrosine phosphorylation, unlike Akt or MAPK activation, did not differ between the cells. Finally, while GH promoted accumulation of activated Ras in both cells, both basal and GH-induced activated Ras levels were greater in cells expressing IRS-1 than in 32D-rbGHR cells. These data indicate that while GH induces tyrosine phosphorylation of STAT5 and activation of the Ras/Raf/MEK1/MAPK and PI3K pathways, IRS-1 expression augments the latter two more than the former.
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PMID:Insulin receptor substrate-1-mediated enhancement of growth hormone-induced mitogen-activated protein kinase activation. 1096 5

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