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)

Protein kinase Cmu (PKCmu) represents a new subtype of the PKC family characterized by the presence of a pleckstrin homology (PH) domain and an amino-terminal hydrophobic region. In order to analyse the potential role of PKCmu in signal-transduction pathways, stable PKCmu transfectants were established with human and murine cell lines. All transfectants showed a reduced sensitivity to tumor-necrosis-factor (TNF)-induced apoptosis, which correlated with the amount of transgene expressed and with an enhanced basal transcription rate of NF-kappaB-driven genes including the inhibitor of apoptosis protein 2 (cIAP2) and TNF-receptor-associated protein 1 (TRAF1). Sensitivity to apoptosis induced by the lipid mediator ceramide was unchanged in PKCmu transfectants. In support of a PKCmu action on NF-kappaB, we show enhancement and downregulation of TNF-induced expression of a NF-kappaB-dependent reporter gene by transient overexpression of wild-type and kinase-negative mutants of PKCmu, respectively. Interestingly, no significant changes were found in an electrophoretic mobility shift assay, indicative of PKCmu action downstream of IkappaB degradation, probably by modulation of the transactivation capacity of NF-kappaB. The dominant negative action of the kinase-negative mutant further suggest a regulatory role of PKCmu for NF-kappaB-dependent gene expression.
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PMID:Protein kinase Cmu downregulation of tumor-necrosis-factor-induced apoptosis correlates with enhanced expression of nuclear-factor-kappaB-dependent protective genes. 979 1

We applied G protein-derived beta gamma-subunits to permeabilized mast cells to test their ability to regulate exocytotic secretion. Mast cells permeabilized with streptolysin-O leak soluble (cytosol) proteins over a period of 5 min and become refractory to stimulation by Ca2+ and GTPgammaS over approximately 20-30 min. beta gamma-Subunits applied to the permeabilized cells retard this loss of sensitivity to stimulation (run-down) and it can be inferred that they interact with the regulatory mechanism for secretion. While alpha-subunits are without effect, beta gamma-subunits at concentrations >10(-8 )M enhance the secretion due to Ca2+ and GTPgammaS. Unlike the small GTPases Rac and Cdc42, beta gamma-subunits cannot induce secretion in the absence of an activating guanine nucleotide, and thus further GTP-binding proteins (likely to be Rho-related GTPases) must be involved. The enhancement due to beta gamma-subunits is mediated largely through interaction with pleckstrin homology (PH) domains. It remains manifest in the face of maximum activation by PMA and inhibition of PKC with the pseudosubstrate inhibitory peptide. Soluble peptides mimicking PH domains inhibit the secretion due to GTPgammaS and block the enhancement due to beta gamma-subunits. Our data suggest that beta gamma-subunits are components of the pathway of activation of secretion due to receptor-mimetic ligands such as mastoparan and compound 48/80.
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PMID:Regulation of exocytosis from rat peritoneal mast cells by G protein beta gamma-subunits. 979 30

ARNO is a member of a family of guanine-nucleotide exchange factors with specificity for the ADP-ribosylation factor (ARF) GTPases. ARNO possesses a central catalytic domain with homology to yeast Sec7p and an adjacent C-terminal pleckstrin homology (PH) domain. We have previously shown that ARNO localizes to the plasma membrane in vivo and efficiently catalyzes ARF6 nucleotide exchange in vitro. In addition to a role in endocytosis, ARF6 has also been shown to regulate assembly of the actin cytoskeleton. To determine whether ARNO is an upstream regulator of ARF6 in vivo, we examined the distribution of actin in HeLa cells overexpressing ARNO. We found that, while expression of ARNO leads to disassembly of actin stress fibers, it does not result in obvious changes in cell morphology. However, treatment of ARNO transfectants with the PKC agonist phorbol 12-myristate 13-acetate results in the dramatic redistribution of ARNO, ARF6, and actin into membrane protrusions resembling lamellipodia. This process requires ARF activation, as actin rearrangement does not occur in cells expressing a catalytically inactive ARNO mutant. PKC phosphorylates ARNO at a site immediately C-terminal to its PH domain. However, mutation of this site had no effect on the ability of ARNO to regulate actin rearrangement, suggesting that phosphorylation of ARNO by PKC does not positively regulate its activity. Finally, we demonstrate that an ARNO mutant lacking the C-terminal PH domain no longer mediates cytoskeletal reorganization, indicating a role for this domain in appropriate membrane localization. Taken together, these data suggest that ARNO represents an important link between cell surface receptors, ARF6, and the actin cytoskeleton.
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PMID:Remodeling of the actin cytoskeleton is coordinately regulated by protein kinase C and the ADP-ribosylation factor nucleotide exchange factor ARNO. 980 2

Phosphoinositide (PI) 3-kinase contributes to a wide variety of biological actions, including insulin stimulation of glucose transport in adipocytes. Both Akt (protein kinase B), a serine-threonine kinase with a pleckstrin homology domain, and atypical isoforms of protein kinase C (PKCzeta and PKClambda) have been implicated as downstream effectors of PI 3-kinase. Endogenous or transfected PKClambda in 3T3-L1 adipocytes or CHO cells has now been shown to be activated by insulin in a manner sensitive to inhibitors of PI 3-kinase (wortmannin and a dominant negative mutant of PI 3-kinase). Overexpression of kinase-deficient mutants of PKClambda (lambdaKD or lambdaDeltaNKD), achieved with the use of adenovirus-mediated gene transfer, resulted in inhibition of insulin activation of PKClambda, indicating that these mutants exert dominant negative effects. Insulin-stimulated glucose uptake and translocation of the glucose transporter GLUT4 to the plasma membrane, but not growth hormone- or hyperosmolarity-induced glucose uptake, were inhibited by lambdaKD or lambdaDeltaNKD in a dose-dependent manner. The maximal inhibition of insulin-induced glucose uptake achieved by the dominant negative mutants of PKClambda was approximately 50 to 60%. These mutants did not inhibit insulin-induced activation of Akt. A PKClambda mutant that lacks the pseudosubstrate domain (lambdaDeltaPD) exhibited markedly increased kinase activity relative to that of the wild-type enzyme, and expression of lambdaDeltaPD in quiescent 3T3-L1 adipocytes resulted in the stimulation of glucose uptake and translocation of GLUT4 but not in the activation of Akt. Furthermore, overexpression of an Akt mutant in which the phosphorylation sites targeted by growth factors are replaced by alanine resulted in inhibition of insulin-induced activation of Akt but not of PKClambda. These results suggest that insulin-elicited signals that pass through PI 3-kinase subsequently diverge into at least two independent pathways, an Akt pathway and a PKClambda pathway, and that the latter pathway contributes, at least in part, to insulin stimulation of glucose uptake in 3T3-L1 adipocytes.
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PMID:Requirement of atypical protein kinase clambda for insulin stimulation of glucose uptake but not for Akt activation in 3T3-L1 adipocytes. 981 85

Thrombin and other agonists that induce secretion and aggregation in human platelets also activate phospholipase D (PLD), but the signaling cascade leading to activation of PLD in human platelets is not yet clear. We have determined that apyrase, which scavenges ADP secreted during platelet activation, is able to block or reduce the PLD activation stimulated by low (0.1 U/ml or less) or high (0.3- 1.0 U/ml) concentrations of thrombin, respectively. Neither ADP (up to 100 microM) nor its more potent analogue 2-methylthio-ADP (up to 100 microM), however, are able to stimulate PLD alone, and even the addition of fibrinogen, which results in platelet aggregation, is not sufficient for PLD activation. In contrast, ADP is able to stimulate PLD in the presence of low concentrations of thrombin that alone have little or no effect, suggesting ADP may play an amplifying role in platelet PLD activation. This hypothesis is supported by the finding that the purinergic receptor antagonist ARL 66096, an ATP analogue, reduces in a concentration-dependent fashion the PLD response to thrombin (IC50=28 nM with 0.1 U/ml thrombin). ARL 66096 also abolishes the PLD activation by ADP observed in the presence of low concentrations of thrombin, confirming that the antagonist inhibits an ADP-dependent component of the response. In addition, the thromboxane A2 receptor agonist U46619 activates PLD, and this response is markedly reduced by ARL 66096. Concomitantly, phosphorylation of the protein kinase C substrate pleckstrin in response to thrombin or U46619 is partially or totally inhibited by ARL 66096, respectively, consistent with ADP stimulation of protein kinase C being involved in the PLD response to these agonists. Based on these findings, we conclude that ADP secretion and activation of purinergic ADP receptors is an important amplification mechanism in the signal transduction pathways leading to PLD activation in human platelets.
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PMID:Secreted ADP plays a central role in thrombin-induced phospholipase D activation in human platelets. 986 70

Bruton's tyrosine kinase (Btk) plays pivotal roles in mast cell activation as well as in B cell development. Btk mutations lead to severe impairments in proinflammatory cytokine production induced by cross-linking of high-affinity IgE receptor on mast cells. By using an in vitro assay to measure the activity that blocks the interaction between protein kinase C and the pleckstrin homology domain of Btk, terreic acid (TA) was identified and characterized in this study. This quinone epoxide specifically inhibited the enzymatic activity of Btk in mast cells and cell-free assays. TA faithfully recapitulated the phenotypic defects of btk mutant mast cells in high-affinity IgE receptor-stimulated wild-type mast cells without affecting the enzymatic activities and expressions of many other signaling molecules, including those of protein kinase C. Therefore, this study confirmed the important roles of Btk in mast cell functions and showed the usefulness of TA in probing into the functions of Btk in mast cells and other immune cell systems. Another insight obtained from this study is that the screening method used to identify TA is a useful approach to finding more efficacious Btk inhibitors.
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PMID:Terreic acid, a quinone epoxide inhibitor of Bruton's tyrosine kinase. 1005 23

Phosphoinositide-dependent protein kinase-1 (PDK1) is a recently identified serine/threonine kinase that phosphorylates and activates Akt and p70(S6K), two downstream kinases of phosphatidylinositol 3-kinase. To further study the potential role of PDK1, we have screened a mouse liver cDNA library and identified a cDNA encoding the enzyme. The predicted mouse PDK1 (mPDK1) protein contained 559 amino acids and a COOH-terminal pleckstrin homology domain. A 7-kilobase mPDK1 mRNA was broadly expressed in mouse tissues and in embryonic cells. In the testis, a high level expression of a tissue-specific 2-kilobase transcript was also detected. Anti-mPDK1 antibody recognized multiple proteins in mouse tissues with molecular masses ranging from 60 to 180 kDa. mPDK1 phosphorylated the conserved threonine residue (Thr402) in the activation loop of protein kinase C-zeta and activated the enzyme in vitro and in cells. Our findings suggest that there may be different isoforms of mPDK1 and that the protein is an upstream kinase that activates divergent pathways downstream of phosphatidylinositol 3-kinase.
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PMID:Primary structure, tissue distribution, and expression of mouse phosphoinositide-dependent protein kinase-1, a protein kinase that phosphorylates and activates protein kinase Czeta. 1007 13

Activation of phospholipase C (PLC) is a central component of the signal transduction process in numerous cells, including platelets. U73122 has been widely used as a selective PLC inhibitor. In the present study, the effects of U73122 on platelet function have been further examined. Platelets were stimulated with collagen (via PLC-gamma), the stable thromboxane mimetic U46619 (via PLC-beta), or phorbol myristate acetate (PMA) via protein kinase C (PKC). Consistent with inhibition of PLC, U73122 inhibited platelet aggregation and [3H]-serotonin release in response to collagen and U46619 in a concentration-dependent manner. Similarly, U73122 blocked collagen-induced release of thromboxane A2. U73122 also inhibited U46619-induced [32P]phosphatidic acid production and phosphorylation of the major PKC substrate, pleckstrin. U73122 had no effect on PMA-induced pleckstrin phosphorylation, [3H]-serotonin release, or intracellular vacuole formation. However, U73122 did inhibit PMA-induced platelet aggregation and fibrinogen binding. Overall, these results suggest that U73122, in addition to its inhibition of PLC, also affects PKC-independent events that interfere with platelet aggregation.
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PMID:The phospholipase C inhibitor U73122 inhibits phorbol ester-induced platelet activation. 1021 45

Changes in shape, and aggregation that accompanies platelet activation, are dependent on the assembly and reorganization of the cytoskeleton. To assess the changes in cytoskeleton induced by thrombin and PMA, suspensions of aspirin-treated,32P-prelabeled, washed pig platelets in Hepes buffer containing ADP scavengers were activated with thrombin, and with PMA, an activator of protein kinase C. The cytoskeletal fraction was prepared by adding Triton extraction buffer. The Triton-insoluble (cytoskeletal) fraction isolated by centrifugation was analysed by SDS-PAGE and autoradiography. Incorporation of actin into the Triton-insoluble fraction was used to quantify the formation of F-actin. Thrombin-stimulated platelet cytoskeletal composition was different from PMA-stimulated cytoskeletal composition. Thrombin-stimulated platelets contained not only the three major proteins: actin (43 kDa), myosin (200 kDa) and an actin-binding protein (250 kDa), but three additional proteins of Mr56 kDa, 80 kDa and 85 kDa in the cytoskeleton, which were induced in by thrombin dose-response relationship. In contrast, PMA-stimulated platelets only induced actin assembly, and the 56 kDa, 80 kDa and 85 kDa proteins were not found in the cytoskeletal fraction. Exposure of platelets to thrombin or PMA induced phosphorylation of pleckstrin parallel to actin assembly. Staurosporine, an inhibitor of protein kinase C, inhibited actin assembly and platelet aggregation induced by thrombin or PMA, but did not inhibit the incorporation of 56 kDa, 80 kDa and 85 kDa into the cytoskeletal fraction induced by thrombin. These three extra proteins seem to be unrelated to the induction of protein kinase C. We conclude that actin polymerization and platelet aggregation were induced by a mechanism dependent on protein kinase C, and suggest that thrombin-activated platelets aggregation could involve additional cytoskeletal components (56 kDa, 80 kDa, 85 kDa) of the cytoskeleton, which made stronger actin polymerization and platelet aggregation more.
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PMID:Cytoskeletal changes in platelets induced by thrombin and phorbol myristate acetate (PMA). 1032 51

We have shown previously that the betagamma subunits of the heterotrimeric G proteins regulate the organization of the pericentriolarly localized Golgi stacks. In this report, evidence is presented that the downstream target of Gbetagamma is protein kinase D (PKD), an isoform of protein kinase C. PKD, unlike other members of this class of serine/threonine kinases, contains a pleckstrin homology (PH) domain. Our results demonstrate that Gbetagamma directly activates PKD by interacting with its PH domain. Inhibition of PKD activity through the use of pharmacological agents, synthetic peptide substrates, and, more specifically, the PH domain of PKD prevents Gbetagamma-mediated Golgi breakdown. Our findings suggest a possible mechanism by which the direct interaction of Gbetagamma with PKD regulates the dynamics of Golgi membranes and protein secretion.
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PMID:Gbetagamma-mediated regulation of Golgi organization is through the direct activation of protein kinase D. 1041 81


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