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

Platelet stimulation by thrombin or the thrombin receptor activating peptide (TRAP) results in the activation of phosphoinositide 3-kinase and the production of the novel polyphosphoinositides phosphatidylinositol 3,4-bisphosphate (PtdIns-3,4-P2) and phosphatidylinositol 3,4,5-trisphosphate (PtdIns-3,4,5-P3). We have shown previously that these lipids activate calcium-independent protein kinase C (PKC) isoforms in vitro (Toker, A., Meyer, M., Reddy, K. K., Falck, J. R., Aneja, R., Aneja, S., Parra, A., Burns, D. J., Ballas, L. M. and Cantley, L. C. (1994) J. Biol. Chem. 269, 32358-32367). Activation of platelet PKC in response to TRAP is detected by the phosphorylation of the major PKC substrate in platelets, the p47 phosphoprotein, also known as pleckstrin. Here we provide evidence for two phases of pleckstrin phosphorylation in response to TRAP. A rapid phase of pleckstrin phosphorylation (< 1 min) precedes the peak of PtdIns-3,4-P2 production and is unaffected by concentrations of wortmannin (10-100 nM) that block production of this lipid. However prolonged phosphorylation of pleckstrin (> 2 min) is inhibited by wortmannin concentrations that block PtdIns-3,4-P2 production. Phorbol ester-mediated pleckstrin phosphorylation was not affected by wortmannin and wortmannin had no effect on purified platelet PKC activity. Phosphorylation of pleckstrin could be induced using permeabilized platelets supplied with exogenous gamma-32P[ATP] and synthetic dipalmitoyl PtdIns-3,4,5-P3 and dipalmitoyl PtdIns-3,4-P2 micelles, but not with dipalmitoyl phosphatidylinositol 3-phosphate or phosphatidylinositol 4,5-bisphosphate. These results suggest two modes of stimulating pleckstrin phosphorylation: a rapid activation of PKC (via diacylglycerol and calcium) followed by a slower activation of calcium-independent PKCs via PtdIns-3,4-P2.
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PMID:Phosphorylation of the platelet p47 phosphoprotein is mediated by the lipid products of phosphoinositide 3-kinase. 749 94

Bruton tyrosine kinase (EC 2.7.1.112) [Btk, encoded by Btk in mice and BTK in humans (formerly known as atk, BPK, or emb)], which is variously mutated in chromosome X-linked agammaglobulinemia patients and X-linked immunodeficient (xid) mice, has the pleckstrin homology (PH) domain at its amino terminus. The PH domain of Btk expressed as a bacterial fusion protein directly interacts with protein kinase C in mast cell lysates. Evidence was obtained that Btk is physically associated with protein kinase C in intact murine mast cells as well. Both Ca(2+)-dependent (alpha, beta I, and beta II) and Ca(2+)-independent protein kinase C isoforms (epsilon and zeta) in mast cells interact with the PH domain of Btk in vitro, and protein kinase C beta I is associated with Btk in vivo. Btk served as a substrate of protein kinase C, and its enzymatic activity was down-regulated by protein kinase C-mediated phosphorylation. Furthermore, depletion or inhibition of protein kinase C with pharmacological agents resulted in an enhancement of the tyrosine phosphorylation of Btk induced by mast cell activation.
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PMID:The pleckstrin homology domain of Bruton tyrosine kinase interacts with protein kinase C. 752 30

Blood platelets contain phospholipase D (PLD) that is rapidly activated following platelet stimulation. It is currently unclear, however, where PLD fits into the signalling cascade that leads to aggregation and secretion. Therefore we investigated the mechanism of activation of PLD in human platelets, using the formation of the PLD-specific product phosphatidylethanol as a measure of PLD activity. PLD was activated by a number of platelet agonists that also cause the activation of protein kinase C, including thrombin, collagen, the Ca2+ ionophore A23187 and the thromboxane A2-mimetic U46619. Phorbol 12-myristate 13-acetate (PMA), a direct activator of protein kinase C, also increased PLD activity. A selective inhibitor of protein kinase C, Ro-31-8220, totally blocked the stimulation of PLD by thrombin or PMA under conditions in which it also inhibited phosphorylation of pleckstrin, the major protein kinase C substrate in platelets. Ro-31-8220 additionally inhibited A23187-stimulated PLD activity, indicating that Ca2+ activation of PLD also occurs via a protein kinase C-dependent pathway. In the presence of the fibrinogen antagonist peptide RGDS, which inhibits fibrinogen binding to integrin alpha IIb beta 3 and allows little or no aggregation to occur, thrombin- and PMA-stimulated PLD activity was still observed, indicating that PLD activation is not simply a consequence of platelet aggregation. Furthermore, these agonists were able to stimulate PLD in platelets from a Glanzmann's thrombasthenia type I patient lacking the integrin alpha IIb beta 3 complex, which indicates that activation of PLD is also independent of the recruitment of integrin alpha IIb beta 3. Taken together, our results show that PLD is activated by a pathway involving protein kinase C, and suggest that PLD might be involved in signal transduction events occurring upstream of integrin alpha IIb beta 3 activation and fibrinogen binding, which are prerequisites for full platelet aggregation.
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PMID:Platelet phospholipase D is activated by protein kinase C via an integrin alpha IIb beta 3-independent mechanism. 754 77

In the present study, insulin is shown to rapidly stimulate by 8- to 12-fold the enzymatic activity of RAC-PK alpha, a pleckstrin homology domain containing ser/thr kinase. In contrast, activation of protein kinase C by phorbol esters had almost no effect on the enzymatic activity of RAC-PK alpha. Insulin activation was accompanied by a shift in molecular weight of the RAC-PK alpha protein, and the activated kinase was deactivated by treatment with a phosphatase, indicating that insulin activated the enzyme by stimulating its phosphorylation. This insulin-induced shift in RAC-PK was also observed in primary rat epididymal adipocytes, as well as in a muscle cell line called C2C12 cells. The insulin-stimulated increase in RAC-PK alpha activity was inhibited by wortmannin (an inhibitor of phosphatidylinositol 3-kinase) in a dose-dependent manner with a half-maximal inhibition of 10 nM, but not by 20 ng/ml of rapamycin. Activation of RAC-PK alpha activity was also observed in a variant RAC lacking the pleckstrin homology domain. These results indicate that RAC-PK alpha activity can be regulated by the insulin receptor. RAC-PK alpha may therefore play a general role in intracellular signaling mediated by receptor tyrosine kinases.
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PMID:Insulin stimulates the kinase activity of RAC-PK, a pleckstrin homology domain containing ser/thr kinase. 755 70

We have reported that platelets exposed to thrombin or thrombin receptor-directed ligand activate phospholipase C and rapidly accumulate phosphatidylinositol (3,4,5)-trisphosphate (PtdIns(3,4,5)P3) and phosphatidylinositol (3,4)-bisphosphate (PtdIns(3,4)P2) as a function of the activation of phosphoinositide (PI) 3-kinases in a GTP-binding protein-dependent manner. In such platelets, serine- and threonine-directed phosphorylation of pleckstrin also occurs and has been attributed to protein kinase C activation. We now report that the phosphorylation of pleckstrin is partially dependent upon PI 3-kinase. Pleckstrin phosphorylation in response to thrombin receptor stimulation is progressively susceptible to inhibition by wortmannin, a potent and specific inhibitor of platelet PI 3-kinases. PI 3-kinase thus seems to play a gradually increasing role in promoting pleckstrin phosphorylation. The IC50 for wortmannin in inhibiting SFLLRN-stimulated 3-phosphorylated phosphoinositide accumulation is 10 nM, and that (i.e. 50% of maximum inhibition) for inhibiting pleckstrin phosphorylation is 15 nM. Synthetic PtdIns(3,4,5)P3, when added to saponin-permeabilized (but not intact) platelets, causes wortmannin-insensitive phosphorylation of pleckstrin. PtdIns(3,4,5)P3 also overcomes the inhibition by wortmannin of thrombin- or guanosine 5'-3-O-(thio)trisphosphate-stimulated pleckstrin phosphorylation. In contrast, PtdIns(4,5)P2 or inositol (1,3,4,5)-tetrakisphosphate are ineffective in these respects. The pattern of phosphorylation of pleckstrin activated by PtdIns(3,4,5)P3 is not distinguishable from that of pleckstrin phosphorylated in intact platelets exposed to protein kinase C-activating beta-phorbol myristate acetate, mimicking diacylglycerol. Activation of protein kinase(s) by PtdIns(3,4,5)P3 thus offers a route for pleckstrin phosphorylation in vivo that is an alternative to activation of phospholipase C-->diacylglycerol-->protein kinase C.
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PMID:Phosphatidylinositol (3,4,5)-trisphosphate stimulates phosphorylation of pleckstrin in human platelets. 755 10

Pleckstrin is a substrate for protein kinase C in activated platelets that contains at its N and C termini two of the pleckstrin homology (PH) domains that have been proposed to mediate protein-protein and protein-lipid interactions. We have recently shown that pleckstrin can inhibit agonist-induced phosphoinositide hydrolysis and that this inhibition requires an intact N-terminal PH domain (residues 6 to 99). In the present studies, we have identified the sites of phosphorylation in pleckstrin and examined their contribution to pleckstrin function. In human platelets activated with thrombin or phorbol esters, and in COS-1 cells expressing pleckstrin, a combination of phosphopeptide analysis and site-directed mutagenesis shows that three residues in the intervening sequence between the two pleckstrin PH domains become phosphorylated: Ser113, Thr114, and Ser117. Replacing all three of these sites with glycine decreased phosphorylation by > 90% and reduced pleckstrin's ability to inhibit phosphoinositide hydrolysis by as much as 80%. Replacing the phosphorylation sites with alanine residues had a similar effect, while substitution with aspartate, glutamate, or lysine residues produced pleckstrin variants that were fully active even in the absence of phosphorylation. These results suggest that phosphorylation enhances pleckstrin's activity by introducing a cluster of charges into a region adjacent to, but not within, the N-terminal PH domain. This may have an allosteric effect on the N-terminal PH domain, regulating its interaction with other molecules necessary for the inhibition of phosphoinositide hydrolysis.
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PMID:Protein kinase C regulates pleckstrin by phosphorylation of sites adjacent to the N-terminal pleckstrin homology domain. 755 87

Cross-linking of the high-affinity IgE receptor (Fc epsilon RI) on mast cells induces rapid phosphorylation on serine, threonine, and tyrosine residues and increases the enzymatic activity, of a Tec subfamily tyrosine kinase, Itk/Tsk/Emt (Emt). The pleckstrin homology domain of Emt at its amino-terminal interacts directly with multiple isoforms of protein kinase C (PKC) in vitro. In addition, a portion of Emt is physically associated with multiple isoforms of PKC in intact mast cells. PKC phosphorylates a bacterial fusion protein containing the pleckstrin homology domain of Emt in vitro. Coexpression of Emt in COS-7 cells with Ca(2+)-dependent PKC isoforms (alpha, beta I, or beta II) induces an enhancement in tyrosine phosphorylation of Emt. In vivo inhibition of PKC expression or activity attenuates tyrosine phosphorylation and enzymatic activity of Emt induced upon Fc epsilon RI cross-linking. These data collectively suggest that PKC phosphorylates Emt and activates its autophosphorylating activity. Alternatively, PKC could activate another tyrosine kinase that phosphorylates Emt, or PKC-mediated phosphorylation of Emt may render it a target for another tyrosine kinase. In any case, PKC appears to play a major role in the activation of Emt induced upon Fc epsilon RI cross-linking.
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PMID:Activation and interaction with protein kinase C of a cytoplasmic tyrosine kinase, Itk/Tsk/Emt, on Fc epsilon RI cross-linking on mast cells. 756 Oct 53

A pleckstrin homology (PH) domain is an approximately 100 amino acid region of sequence homology present in numerous proteins involved in signal transduction and growth control. The three dimensional structures of several PH domains demonstrate that they consist of a beta-barrel of seven antiparallel beta-sheets and a carboxyl-terminal amphiphilic alpha-helix. Several ligands capable of binding to PH domains have been identified including phosphatidylinositol 4,5-bisphosphate and the beta gamma subunits of heterotrimeric G proteins, which bind to the amino and carboxyl-termini of the PH domain, respectively. Furthermore, several isoforms of protein kinase C appear to bind to some PH domains. A general function of PH domains may be to anchor PH domain-containing proteins to the appropriate membrane-compartment. The membrane localization of PH domain-containing proteins may require cooperative multiple ligand binding to the PH domain. Finally, the heterogeneity of sequences among various PH domains may prove to be the basis for differences in the regulation and specificity of PH domain-ligand interaction in a fashion similar to SH2 and SH3 domains. The function of the PH domain and the mechanisms of PH domain action seem to be quite complex.
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PMID:[PH domain: a new functional domain]. 759 May 18

Propranolol inhibits platelet secondary aggregation and secretion by mechanisms unrelated to its beta-adrenergic-blocking activity. We previously reported that a major effect of the drug is perturbation of the physical microenvironment of the human platelet membrane. To explore further the molecular mechanisms underlying propranolol-mediated platelet inhibition, we studied protein kinase C activity, estimated from the phosphorylation of the substrate protein pleckstrin, in propranolol-treated human platelets. The drug inhibited activation of the enzyme in thrombin-stimulated platelets but not in platelets stimulated with phorbol esters, indicating that its site of action might be upstream of protein kinase C. It also inhibited the activity of phospholipase C, determined from the extent of generation of inositol phosphates and phosphatidic acid, in platelets stimulated with thrombin as well as the non-hydrolysable GTP analogue guanosine 5'-[beta, gamma-imido]triphosphate in a dose-dependent manner. These data suggest that propranolol inhibits signal transduction in thrombin-stimulated platelets by interacting at the level of phospholipase C and exclude interaction of the drug with the downstream effector enzyme protein kinase C.
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PMID:Effect of propranolol on platelet signal transduction. 761 88

In order to identify cDNAs that can induce oncogenic transformation, a retroviral vector was used to transfer a library of cDNAs from the murine 32D hemopoietic cell line into NIH 3T3 fibroblasts. We have identified and recovered a provirus containing a 1.8-kilobase pair cDNA whose expression causes morphological transformation in NIH 3T3 cells. The transforming cDNA contains a complete open reading frame that encodes a protein (designated Lfc) with a region of sequence similarity to the product of the lbc oncogene. This region includes a domain that is characteristic of the CDC24 family of guanine nucleotide exchange factors in tandem with a pleckstrin homology (PH) domain. The Lfc protein is distinguished from Lbc by a 150-amino acid NH2-terminal extension that contains a cysteine- and histidine-rich domain similar to the diacylglycerol-binding site (zinc butterfly) found in protein kinase C. NH2- and COOH-terminal deletion analysis revealed that both the PH and putative guanine nucleotide exchange factor domains are required, but the zinc butterfly is dispensable, for transformation. Although the removal of the PH domain of the Lfc protein completely eliminated its ability to transform NIH 3T3 cells, replacement of this domain with an isoprenylation site restored all of its transforming activity. This suggests that a PH domain-dependent recruitment of the Lfc protein to the cellular membrane is a necessary step for cellular transformation. The lfc gene is expressed in a broad range of tissues as well as in a variety of hemopoietic and non-hemopoietic cell lines. Lfc appears to be a new member of a growing family of proteins that are likely to act as activators of Ras-like proteins in a developmental or cell-lineage specific manner.
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PMID:Expression cloning of lfc, a novel oncogene with structural similarities to guanine nucleotide exchange factors and to the regulatory region of protein kinase C. 762 63


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