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)

RAC protein kinase (RAC-PK), a serine/threonine protein kinase containing a pleckstrin homology (PH) domain, was activated by cellular stress such as heat shock and hyperosmolarity. Wortmannin, which is known as a potent inhibitor of phosphatidylinositol 3-kinase and normally inhibits growth factor-induced activation of RAC-PK, did not suppress heat-shock induced activation of RAC-PK, indicating that this stress-induced activation of the kinase is not mediated by phosphatidylinositol 3-kinase. The PH domain was indispensable for stress-induced activation of RAC PK. In heat-treated cells, PKC delta, a member of the protein kinase C family, was found to associate with the PH domain of RAC-PK. This PKC subspecies was phosphorylated in vitro by RAC-PK. The results suggest that RAC-PK may play a role in the cellular response to stress through its PH domain.
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PMID:Activation of RAC-protein kinase by heat shock and hyperosmolarity stress through a pathway independent of phosphatidylinositol 3-kinase. 875 28

Signal transduction on platelet activation involves phosphoinositide-specific phospholipase C (PLC)-mediated hydrolysis of phosphatidylinositides and formation of inositol-1,4,5-triphosphate [I(1,4,5)P3], which mediates Ca2+ mobilization, and diacylglycerol (DG), which activates protein kinase C (PKC) to phosphorylate a 47-kD protein (Pleckstrin). We studied these events in two related patients previously reported (Blood 74:664, 1989) to have abnormal aggregation and 14C-serotonin secretion, and impaired intracellular Ca2+ mobilization in response to several agonists. Thrombin-induced I(1,4,5)P3 and phosphatidic acid formation were diminished. Pleckstrin phosphorylation was impaired on activation with thrombin, platelet-activating factor, and ionophore A23187, but was normal with PKC activator 1,2-dioctonyl-sn-glycerol (DiC8). Ca2+ mobilization induced by guanosine triphosphate (GTP) analog guanosine 5'-0-(3 thiotriphosphate) (GTP gamma S) was diminished. Pretreatment with either A23187 or DiC8 did not correct the impaired adenine diphosphate-induced secretion; however, upon stimulation with A23187 plus DiC8, pleckstrin phosphorylation and secretion were normal, indicating that both PKC activation and Ca2+ mobilization are essential for normal secretion. We conclude that these patients have a unique inherited platelet defect in formation of two key intracellular mediators [I(1,4,5)P3 and DG] and in the responses mediated by them due to a defect in postreceptor mechanisms of PLC activation.
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PMID:Human platelet signaling defect characterized by impaired production of inositol-1,4,5-triphosphate and phosphatidic acid and diminished Pleckstrin phosphorylation: evidence for defective phospholipase C activation. 878 23

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 effects of cell-permeable C2 and C6-ceramides on human platelet responses were investigated. In thrombin-activated platelets, C6(5-30 microM) potentiated Ca2+ mobilization and Ca2+ influx, and decreased the rate of removal of Ca2+ from cytosol. The effect of C2 was not significant. Phorbol ester or calyculin A inhibition of thrombin-induced rises in platelet [Ca2+]i was attenuated by C6. Assays show that C6 either prolonged the generation, or retarded the metabolism of inositol trisphosphates. Previous studies indicate that protein kinase C (PKC) acts in a negative feedback manner by inhibiting phosphatidylinositol breakdown, accelerating inositol trisphosphate metabolism, and increasing Ca2+ pump activity. C6 may counter these PKC effects indirectly. The synthetic ceramides inhibited platelet aggregation weakly and had no effect on pleckstrin (p47) phosphorylation. Recently we reported that C2 but not C6 inhibits superoxide generation and store-regulated Ca2+ influx in neutrophils at similar concentrations. Cellular differences in ceramide metabolism or ceramide-sensitive enzymes and their substrates may account for the disparate results.
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PMID:C6-ceramide maintains elevated cytosolic calcium levels in activated platelets. 882 37

Protein kinase C mu (PKC mu) displays unusual structural features like a pleckstrin homology domain and an amino-terminal hydrophobic region with a putative leader peptide and transmembrane sequence. As a discrete location often is a direct clue to the potential biological function of a kinase, antibodies directed against unique amino- and carboxy-terminal domains of PKC mu were used to localize the protein within intracellular compartments in immunofluorescence and subcellular fractionation studies. Confocal laser scanning microscopy showed colocalization of PKC mu with the resident Golgi marker protein beta 1,4 galactosyltransferase in PKC mu transfectants and in the human hepatocellular carcinoma cell line HepG2, expressing endogenous PKC mu. Long-term treatment of cells with brefeldin A, which disintegrates the Golgi apparatus, disrupted PKC mu-specific staining. Cosegregation of PKC mu with beta 1,4 galactosyltransferase, but not with the endosomal marker rab5, upon density gradient fractionation and Western blot analysis of HepG2 cell extracts, provides independent evidence for a Golgi localization of PKC mu. Moreover, cellular sulfate uptake and Golgi-specific glycosaminoglycan sulfation was enhanced in PKC mu transfectants. Together, these data suggest that PKC mu is a resident protein kinase of the core Golgi compartment and is involved in basal transport processes.
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PMID:Protein kinase C mu is located at the Golgi compartment. 883 Jul 70

Platelet signal transduction involves not only reversible phosphorylation of proteins on both tyrosine and serine/threonine residues, but also mechanisms of cross-talk to coordinate different pathways. We have, therefore, investigated the effect of okadaic acid, a potent inhibitor of serine/threonine protein phosphatases type 1 and type 2A (PP1 and PP2A), to better understand the interplay that must exist between serine/threonine and tyrosine phosphorylations during platelet activation. Okadaic acid drastically inhibits thrombin-induced platelet aggregation, secretion, and thromboxane synthesis. The inhibition is accompanied by a marked increase in the phosphorylation of at least 5 proteins (230, 210, 74, 57, and 50 to 52 kDa). However, protein kinase C activity is not modified because thrombin-and phorbol-12-myristate-13-acetate-induced phosphorylation of pleckstrin is still occurring, although slightly decreased. Inhibition of platelet function and extent of the phosphorylation of the 5 substrates in the presence of okadaic acid are concentration and time dependent, suggesting a relation between the accumulation of one or more phosphoproteins and the inhibitory effect of okadaic acid. Okadaic acid inhibits thrombin-induced tyrosine phosphorylation in a concentration-dependent manner. According to Brautigan and Pinault, the inhibition of protein phosphatases in kidney cells resulted in the activation of a 55-kDa-tyrosine phosphatase and the tyrosine phosphatase activity was synergistically increased when okadaic acid acted in concert with prostaglandin I2 (PGI2). Interestingly, in agreement with these results, the okadaic acid-induced phosphorylation of the 50-kDa substrate, which occurs without a cyclic adenosine monophosphate increase in platelets, has the same molecular weight as the platelet membrane tyrosine phosphatase isolated by Dawicki and Steiner. Furthermore, we also found that thrombin-induced tyrosine phosphorylation was markedly inhibited in the presence of low concentrations of both okadaic acid and PGI2, therefore explaining the synergistic inhibition of platelet aggregation and secretion. The results greatly support the notion of a cross-talk between stimulation of serine/threonine kinases (in response to inhibition of serine/threonine PP) and inhibition of tyrosine phosphorylations and emphasize the role of the 50-kDa substrate in regulating platelet activation.
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PMID:Serine/threonine dephosphorylation may be involved in tyrosine phosphorylation: a new mode of signal transduction in platelets. 894 16

Addition of the calcium-ionophore ionomycin to acetylsalicylate-treated platelets suspended in a low Ca2+ concentration-containing medium (about 0.1 microM), induced a dose-dependent (range 0.25-3 microM) and transient increase in the cytosolic Ca2+ concentration ([Ca2+]c). Less than 10% of the maximal releasable amount of serotonin was secreted at [Ca2+]c lower than 1 microM, whereas secretion was almost maximal at [Ca2+]c higher than 2 microM. In all cases the secretion stopped after about 1 min even if the [Ca2+]c was kept constant by repeated small additions of CaCl2 (25-40 microM). A rapid phosphorylation of pleckstrin (47 kDa) and myosin light chain (20 kDa) was found in all cases, whereas a weak phosphorylation of a 27 kDa protein occurred at [Ca2+]c lower than 1.5 microM. Addition of 0.2 mM CaCl2 to platelets pretreated for 4 min with 0.5-1 microM ionomycin brought about a serotonin secretion remarkably lower than obtained by the simultaneous addition of CaCl2 and ionophore. Platelets suspended in a low calcium-containing medium and exposed to ionomycin showed a major increase in tyrosine phosphorylation of 60 and 72 kDa proteins and a slight increment in tyrosine phosphorylation of 115 and 130 kDa proteins. Subsequent addition of 0.2 mM CaCl2 induced a widespread phosphotyrosine dephosphorylation, particularly evident in the 60 kDa protein identified as p60c-src kinase. The protein kinase inhibitor genistein caused, together with a marked prevention of the protein tyrosine phosphorylation, a remarkable increase in the ionomycin-elicited secretory activity of platelets All together these results indicate that protein kinase C-dependent pleckstrin phosphorylation is a prerequisite of platelet secretion, but that the latter process is apparently regulated by a network of phosphoproteins, in particular the serine/threonine phosphorylation of 27 and 68 kDa proteins and the tyrosine phosphorylation of the p60c-src were found to be associated with a decrease in the secretory activity.
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PMID:Correlation between cytosolic Ca2+ concentration, protein phosphorylation and platelet secretion. 895 58

Pleckstrin is a 40 kDa substrate for protein kinase C found in platelets and neutrophils. Based upon its sequence, pleckstrin contains two of the recently-described PH domains that are thought to be binding motifs for phosphatidyl 4,5-bisphosphate (PIP2) and/or G protein beta gamma heterodimers (G beta gamma). In the present studies we have examined the interaction between pleckstrin and G beta gamma by incubating pleckstrin fusion proteins with lysates from human platelets. In this analysis, both the N-terminal and C-terminal PH domains from pleckstrin bound G beta gamma in vitro, as did peptides containing as little as the first 30 residues of the C-terminal pleckstrin PH domain. Introduction of a point mutation into this region, analogous to the mutation in the Btk PH domain that causes X-linked immunodeficiency disease (XID) in mice, dramatically disrupted this interaction. We propose that pleckstrin may interact with G beta gamma, and that one potential site for this interaction involves the first 30 residues of pleckstrin's C-terminal PH domain.
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PMID:A site of interaction between pleckstrin's PH domains and G beta gamma. 898 77

Pleckstrin is the major substrate phosphorylated on serine and threonine in response to stimulation of human platelets by thrombin (Abrams, C. S., Zhao, W., Belmonte, E., and Brass, L. F. (1995) J. Biol. Chem. 270, 23317-23321). We now show that pleckstrin in platelets is in a complex with inositol polyphosphate 5-phosphatase I (5-phosphatase I). This enzyme hydrolyzes the 5-phosphate from inositol 1,4,5-trisphosphate and inositol 1,3,4,5-tetrakisphosphate and thus serves as a calcium signal-terminating enzyme, since the substrates but not the products mobilize intracellular calcium. Pleckstrin co-immunoprecipitates with 5-phosphatase I in homogenates of platelets. Platelet homogenates fractionated by anion exchange chromatography show co-elution of pleckstrin and 5-phosphatase I. Fractions containing phosphorylated pleckstrin have 7-fold greater 5-phosphatase activity than those containing unphosphorylated pleckstrin. Mixing experiments with recombinant 5-phosphatase I and pleckstrin in vitro show that they form a stoichiometric complex. A mutant form of pleckstrin, in which the serine and threonine residues that are phosphorylated by protein kinase C are substituted with glutamic acid (pseudophosphorylated pleckstrin), activates recombinant 5-phosphatase I 2-3-fold while native unphosphorylated pleckstrin does not stimulate the enzyme. Thus pleckstrin functions to terminate calcium signaling in platelets when it is phosphorylated by binding to and activating 5-phosphatase I.
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PMID:Phosphorylation of platelet pleckstrin activates inositol polyphosphate 5-phosphatase I. 899 61

To investigate whether diacylglycerol (DAG) has a role in reversible platelet aggregation induced by low concentrations of platelet-activating factor (PAF), we attempted to use the DAG kinase inhibitor, R59022, to prevent rapid conversion of DAG to phosphatidic acid. However, we found that R59022 inhibited the binding of [3H]PAF to human and rabbit platelets and to rabbit platelet membranes. We then investigated whether exogenous, cell-penetrating DAGs (1,2-dihexanoyl-sn-glycerol (DHG) and 1-oleoyl-2-acetyl-sn-glycerol (OAG)) act synergistically with low concentrations of PAF that alone induce only reversible aggregation. Platelets were isolated and labeled with [14C]serotonin. DHG (25-75 microM) caused slow, weak aggregation and some release of [14C]serotonin with human, but not rabbit, platelets. OAG (25-75 microM) did not aggregate either species' platelets. Phosphorylation of pleckstrin by DHG was more transient in rabbit platelets than previously observed with human platelets. Both DHG and OAG synergistically potentiated PAF-induced aggregation of human platelets, but, paradoxically, concurrently inhibited the PAF-induced increase in intracellular Ca2+ ([Ca2+]i): potentiation decreased upon incubation with DAGs before PAF addition. In contrast, DHG strongly inhibited PAF-induced aggregation of rabbit platelets; inhibition decreased upon preincubation. OAG, added with PAF, slightly potentiated aggregation of rabbit platelets: upon preincubation, OAG progressively inhibited. Effects of DHG and OAG on PAF-induced increases in [Ca2+]i in rabbit platelets followed a similar pattern; thus, with rabbit platelets, inhibition of the [Ca2+]i increase may at least partially account for inhibition of PAF-induced aggregation by exogenous DAGs. Results with human platelets are consistent with stimulation of protein kinase C by DAGs, and then metabolism of DAGs and/or negative feedback by DAGs, but results with rabbit platelets indicate both an unexpected species difference and a difference between the effects of DHG and OAG on PAF-induced platelet aggregation.
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PMID:Exogenous diacylglycerols synergize with PAF with human platelets, but inhibit PAF-induced responses of rabbit platelets. 902 75


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