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)

Rabbit platelets were labelled with [3H]glycerol and incubated with or without phorbol 12-myristate 13-acetate (PMA). Membranes were then isolated and assayed for phospholipase D (PLD) activity by monitoring [3H]phosphatidylethanol formation in the presence of 300 mM-ethanol. At a [Ca2+free] of 1 microM, PLD activity was detected in control membranes, but was 5.4 +/- 0.8-fold (mean +/- S.E.M.) greater in membranes from PMA-treated platelets. Under the same conditions, 10 microM-guanosine 5'-[gamma-thio]triphosphate (GTP[S]) stimulated PLD by 18 +/- 3-fold in control membranes, whereas PMA treatment and GTP[S] interacted synergistically to increase PLD activity by 62 +/- 12-fold. GTP[S]-stimulated PLD activity was observed in the absence of Ca2+, but was increased by 1 microM-Ca2+ (3.5 +/- 0.2-fold and 1.8 +/- 0.1-fold in membranes from control and PMA-treated platelets respectively). GTP exerted effects almost as great as those of GTP[S], but 20-30-fold higher concentrations were required. Guanosine 5'-[beta-thio]diphosphate inhibited the effects of GTP[S] or GTP, suggesting a role for a GTP-binding protein in activation of PLD. Thrombin (2 units/ml) stimulated the PLD activity of platelet membranes only very weakly and in a GTP-independent manner. The actions of PMA and analogues on PLD activity correlated with their ability to stimulate protein kinase C in intact platelets. Staurosporine, a potent protein kinase inhibitor, had both inhibitory and, at higher concentrations, stimulatory effects on the activation of PLD by PMA. The results suggest that PMA not only stimulates PLD via activation of protein kinase C but can also activate the enzyme by a phosphorylation-independent mechanism in the presence of staurosporine. However, under physiological conditions, full activation of platelet PLD may require the interplay of protein kinase C, increased Ca2+ and a GTP-binding protein, and may occur as a secondary effect of the activation of phospholipase C.
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PMID:Phorbol ester treatment of intact rabbit platelets greatly enhances both the basal and guanosine 5'-[gamma-thio]triphosphate-stimulated phospholipase D activities of isolated platelet membranes. Physiological activation of phospholipase D may be secondary to activation of phospholipase C. 212 96

We have used the 1321N1 astrocytoma cell as a model system for understanding the molecular events involved in signal transduction through phospholipid metabolism. This clonal cell line expresses muscarinic cholinergic receptors (mAChR) that interact with a GTP-binding protein to regulate phospholipase C, rapidly increasing Ins 1,4,5-P3 and mobilizing intracellular Ca2+. Diacylglycerol (DAG) is also increased following mAChR stimulation but the increase in DAG is not significant until several minutes after addition of the mAChR agonist carbachol. To determine the role of Ca2+ and DAG in the activation of protein kinase C (PKC), we assessed PKC redistribution in the intact cell by measuring membrane-associated [3H]phorbol dibutyrate ([3H]PDB) binding. mAChR activation leads to a two-fold increase in [3H]PDB binding which is rapid, transient and temporally correlated with the increase in cytosolic [Ca2+]. When the rise in cytosolic [Ca2+] is buffered with Quin-2 or BAPTA the increase in [3H]PDB binding is inhibited. Studies using subtype-specific antibodies to PKC reveal only the alpha-subtype and confirm that mAChR stimulation causes redistribution of PKC immunoreactivity to a particulate cell fraction only when Ca2+ is increased. Our data suggest that the relatively slow increase in DAG is not the trigger for PKC redistribution and may be secondary to the activation of PKC. Thus, when 1321N1 cells are stimulated with phorbol 12-myristate 13-acetate (PMA) to activate PKC there is a rise in the cellular DAG content. In addition, in cells treated with PMA to down-regulate PKC, carbachol no longer significantly increases DAG mass. These data suggest that PKC is a mediator in the generation of DAG. Analysis of the fatty acid composition of the DAG formed in response to mAChR stimulation suggests that it is mostly derived from phosphatidylcholine (PC) rather than from inositol phospholipids. We examined the effect of mAChR stimulation on PC metabolism in 1321N1 cells. Cells were labelled with [3H]choline which was incorporated into PC and released into the medium when the cells were stimulated with carbachol or with PMA. [3H]Choline release increased throughout a 20-min stimulation. PKC down-regulation abolished both PMA and carbachol-stimulated [3H]choline release. These data support the hypothesis that mAChR stimulation leads to phospholipase D-mediated PC hydrolysis through activation of PKC. Activation of phospholipase D (PLD) was demonstrated by the finding that phosphatidic acid increased in response to PMA or carbachol prior to the increase in PA. In addition, phosphatidylethanol was formed in response to PMA and carbachol in cells exposed to ethanol.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Muscarinic receptor regulation of protein kinase C distribution and phosphatidylcholine hydrolysis. 213 May 11

The tumor-promoting phorbol ester 4 beta-phorbol 12-myristate 13-acetate (PMA) inhibited thrombin-stimulated arachidonic acid (AA) release in rabbit and human platelets. PMA was effective over the same concentration range that activates protein kinase C in intact rabbit platelets: IC50 vs thrombin = 0.5 nM, greater than 90% inhibition at 10 nM. Suppression of thrombin-stimulated AA release was evident within 5 min of pretreatment with 1 nM PMA. A non-tumor-promoting phorbol ester, 4-O-methyl PMA, showed a very weak ability to inhibit AA release. Thrombin-stimulated serotonin secretion was progressively inhibited by PMA pretreatment in platelets, while PMA was a stimulus for secretion at higher concentrations. 1-(5-Isoquinolinylsulfonyl)-2-methyl-piperazine (H-7), a selective inhibitor of protein kinase C, blocked PMA-induced inhibition of AA release. Furthermore, H-7 enhanced the effect of thrombin on AA release. PMA pretreatment reduced the inhibitory effect of thrombin on forskolin-stimulated cAMP accumulation, but had no effect on nonstimulated cAMP metabolism in the presence of thrombin. PMA did not inhibit AA release caused by A23187 or melittin. In digitonin-permeabilized platelets, thrombin plus guanosine 5'-(3-O-thio)triphosphate (GTP gamma S)-stimulated AA release, but not GTP gamma S- and AIF4(-)-stimulated AA release, was abolished by PMA pretreatment. These results suggest that activation of protein kinase C may exert negative feedback on the receptor-mediated activation of phospholipase A2. A possible uncoupling of thrombin receptor to GTP-binding protein leading to activation of phospholipase A2 by PMA pretreatment is discussed.
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PMID:Modes of inhibitory action of 4 beta-phorbol 12-myristate 13-acetate in thrombin-stimulated arachidonic acid release in intact and permeabilized platelets. 215 60

5-Hydroxytryptamine (5-HT) stimulates the rate and force of cardiac contraction. However, the molecular mechanisms of 5-HT actions on the heart are unknown. We examined effects of 5-HT on phospholipase C-mediated hydrolysis of phosphoinositides and its regulation in cultured fetal mouse ventricular myocytes labeled with [3H]inositol. Accumulation of inositol monophosphate, inositol bisphosphate, and inositol trisphosphate was assessed after stimulation with 5-HT, catecholamines, and AlF4-. Inositol bisphosphate and trisphosphate reached a peak at 15 minutes by 5-HT stimulation and at 30 minutes by AlF4- stimulation. Inositol monophosphate accumulated linearly for at least 30 minutes in the presence of LiCl. The 5-HT effect was dose dependent, and the threshold concentration was 0.1 microM with the half-maximum effective concentration of 1 microM. Ketanserin in nanomolar concentrations inhibited the phospholipase C reaction by 100 microM 5-HT with the half-maximum inhibitory concentration of 0.5 nM. Pertussis toxin (100-1,000 ng/ml) did not influence the phospholipase C reaction by 5-HT, but it partially inhibited the reaction by AlF4-. Protein kinase C-activating phorbol esters like 12-O-tetradecanoylphorbol 13-acetate (TPA) and phorbol 12,13-dibutyrate, but not 4 alpha-phorbol 12,13-didecanoate, which is inactive for protein kinase C, completely inhibited the reaction by 5-HT; TPA showed 30% inhibition on the reaction by AlF4-. The magnitude of accumulated inositol phosphates by AlF4- was at least several times greater than that by 5-HT. Norepinephrine- and epinephrine-stimulated phospholipase C reactions were completely abolished by prazosin. These results suggest that 5-HT directly stimulates phospholipase C-mediated hydrolysis of phosphoinositides through 5-hydroxytryptamine-2 (5-HT2) receptors in the ventricular myocytes and that this reaction is negatively regulated by protein kinase C. 5-HT2 receptors may be coupled to phospholipase C via a pertussis toxin-insensitive GTP-binding protein in the myocytes.
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PMID:5-Hydroxytryptamine induces phospholipase C-mediated hydrolysis of phosphoinositides through 5-hydroxytryptamine-2 receptors in cultured fetal mouse ventricular myocytes. 216 Aug 68

In phagocytes, activation of the respiratory burst by chemoattractants requires ATP and involves a pertussis toxin-sensitive G protein. ATP is also required for the response elicited in permeabilized neutrophils by nonhydrolyzable GTP analogs, indicating that at least one of the ATP-dependent steps lies downstream of the receptor-coupled G protein(s). A respiratory burst can also be produced in a reconstituted cell-free system by addition of arachidonic acid. Most investigators find this response to be independent of ATP, yet stimulated by GTP analogs, implying that the ATP-dependent steps observed in the unbroken cells must precede the guanine nucleotide-requiring event. To resolve this apparent discrepancy, we studied the ATP and guanine nucleotide dependence of the oxidative response elicited by arachidonic acid in electrically permeabilized human neutrophils. Two components of the response were apparent: one was ATP-dependent, the other ATP-independent. The ATP-dependent component was partially inhibited by staurosporine, suggesting involvement of protein kinase C. This kinase signals activation of the NADPH oxidase without intervening G proteins, since stimulation by phorbol ester was unaffected by guanosine 5'-(beta-thio)diphosphate (GDP beta S). Although nonhydrolyzable GTP analogs failed to stimulate the oxidase in the absence of ATP, the ATP-independent response stimulated by arachidonic acid was found to require GTP or one of its analogs and to be inhibited by GDP beta S. The relative potency of the guanine nucleotides to support the arachidonic acid response in the absence of ATP (5'-guanylyl imidodiphosphate (GMP-PNP) greater than or equal to guanosine 5'-(gamma-thio)triphosphate GTP gamma S) greater than or equal to (GTP) differed from their efficacy to stimulate the burst in the presence of ATP (GTP gamma S greater than GMP-PNP much greater than GTP). These observations suggest the involvement of two distinct GTP-binding proteins in oxidase activation: a receptor-coupled, heterotrimeric, pertussis toxin-sensitive G protein, and a second GTP-binding protein(s) located downstream of the ATP-requiring steps, which may lie in close proximity to the NADPH oxidase. This secondary GTP-binding protein could be part of the pathway activated by chemoattractants, but does not mediate stimulation via protein kinase C. Therefore multiple parallel routes may exist for activation of the NADPH oxidase.
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PMID:ATP and guanine nucleotide dependence of neutrophil activation. Evidence for the involvement of two distinct GTP-binding proteins. 216 41

The short term regulation of the activity of the Na,K-pump (Na+,K(+)-ATPase) is just beginning to be understood. By using single microdissected proximal tubule segments (PCT) (permeabilized in order to clamp Na entry), it was possible to study regulation of Na+,K(+)-ATPase activity in its own environment and in a well defined cell population. The Na+,K(+)-ATPase activity can be regulated over a short term via guanidine triphosphate (GTP) dependent regulatory proteins. However the guanidine proteins are not directly coupled to the Na,K-pump and the mechanism involves the activation of complex intracellular signalling system. Locally produced dopamine induces a dose dependent inhibition of Na+,K+ ATPase activity. This inhibition is mediated by a complex mechanism that requires the activation of both membrane dopamine receptors, DA-1 and DA-2. It involves the activation of a pertussis toxin sensitive GTP-binding protein and activation of protein kinase C. A DA-2 agonist only inhibits Na+,K(+)-ATPase activity when it is incubated together with dibutyryl cAMP or Forskolin. We have therefore concluded that an increase in cellular cAMP levels plays a permissive role for DA-2 inhibition of Na+,K(+)-ATPase activity. A fully differentiated cell is required for dopamine inhibition of Na+,K(+)-ATPase activity. An abnormal regulation of proximal tubule Na+,K(+)-ATPase activity might be of importance in the pathogenesis of certain types of hypertension.
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PMID:Short-term regulation of Na+,K(+)-ATPase activity by dopamine. 216 34

Rolipram (4-(3-cyclopentyloxy-4-methoxyphenyl)-2-pyrrolidone) represents a new class of specific low Km cAMP phosphodiesterase (PDE) inhibitors. This compound enhances basal, hormone- and forskolin-elicited cAMP accumulation in prolactin (PRL) producing rat pituitary adenoma (GH4C1) cells in culture (ED50 = 5.10(-8) M). This effect is due to a selective inhibition of the low Km cAMP PDE (type III), since neither basal nor hormone-stimulated adenylate cyclase (AC) nor the Ca2+/calmodulin-dependent PDE were affected by rolipram. The drug enhanced vasoactive intestinal polypeptide (VIP)-stimulated PRL-secretion, while thyroliberin (TRH)- and 12-0-tetradecanoyl phorbol-13-acetate (TPA)-elicited PRL egress were slightly reduced indicating a cAMP-mediated reduction of protein kinase C (PK-C) mediated PRL release. Interestingly, inhibition of PRL secretion by somatostatin (SRIH) was completely suppressed suggesting cAMP-mediated inactivation of some GTP-binding protein(s) of the alpha i family (G alpha i2 or Gk). Rolipram did not affect phosphoinositide metabolism (i.e. IP3 accumulation), neither acutely nor after long term administration. Rolipram, like the cAMP PDE inhibitor Ro 20-1724, did not influence AC and PDE I, but dose-dependently inhibited PDE III activity. Long term incubation of GH4C1 cells with rolipram in the presence of noradrenaline (NA) exerted a marginal decrease of beta-receptor number, AC activation and cAMP accumulation, while Ro 20-1724 brought about a marked down-regulation and desensitization of the AC complex. In summary, rolipram selectively interacts with PDE III in rat pituitary adenoma cells in culture and does not result in beta-adrenoceptor AC downregulation. These features are not shared by the other drugs tested.
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PMID:The pharmacodynamic action of the cyclic AMP phosphodiesterase inhibitor rolipram on prolactin producing rat pituitary adenoma (GH4C1) cells. 217 76

alpha-Thrombin, gamma-thrombin, and platelet-activating factor each stimulated the mobilization of intracellular Ca2+ stores in aspirin-treated human platelets. This was followed by desensitization of the receptors, as shown by the return of the Ca2+ level to basal values and by the fact that a subsequent addition of a second different agonist, but not the same agonist, could again elicit a response. Epinephrine, acting on alpha 2-adrenergic receptors, was by itself ineffective at mobilizing Ca2+ stores. However, when added after the thrombin-induced response, epinephrine could evoke a considerable release of Ca2+ from cellular stores. This appeared to be due to epinephrine recoupling thrombin receptors to phospholipase C. In support of this, epinephrine was able to induce the formation of inositol triphosphate when added after the response to thrombin had also become desensitized. Alone, epinephrine was without effect. Pre-activation of protein kinase C with the phorbol ester abolished these effects of epinephrine, suggesting that epinephrine was working by activating a protein which could be inactivated by phosphorylation. Our current work is to characterize this protein that may be a member of the Gi, GTP-binding protein family.
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PMID:Regulation of hormone-induced Ca2+ mobilization in the human platelets. 219 Aug 17

Multiple (at least seven) steps are involved in GnRH-induced gonadotropin secretion and gonadotropin gene expression. After binding to specific receptors located exclusively on pituitary gonadotrophs, GnRH stimulates a rapid phosphodiesteric hydrolysis of phosphoinositides for which no rise in [Ca2+]i is required. Activation of PLC is most likely mediated by a pertussis toxin-insensitive GTP-binding protein (Gp). In its activated state (Gp-GTP) the binding affinity of GnRH to is receptor is reduced. Rapid formation of IP3 will enhance Ca2+ release from intracellular sources most likely via a specific IP3 receptor. The transient Ca2+ rise might be responsible for a burst phase of LH release lasting for about 100 sec, which is not dependent on extracellular Ca2+. The backbone moiety of the phosphoinositides, DG, and the elevated [Ca2+]i are most likely responsible for translocation of PKC subspecies from the cytosol to the membrane. The most likely candidates are alpha- and beta II-PKC. The activated PKC subspecies phosphorylate substrate proteins which activate secretory reactions and participate in gonadotropin gene expression. In parallel Ca2(+)-influx via nifedipine-sensitive and insensitive channels further elevates [Ca2+]i, which participates in the sustained phase of gonadotropin secretion in concert with the activated PKCs. GnRH also triggers the release of AA and the formation of lipoxygenase and/or epoxygenase products of the fatty acid which are also involved in the process of the exocytosis. We predict that the continuous supply of DG and AA needed for GnRH action is also provided via activated PLD which will also supply phosphatidic acid, the role of which is as yet unclear. The interaction of the various second messengers involved in GnRH action (IP3, Ca2+, DG, AA) and their relative roles in gonadotropin secretion and gonadotropin gene expression await further investigation. In several aspects GnRH action on gonadotropin secretion is unique when compared to other Ca2(+)-mobilizing ligands: 1) At physiological concentrations GnRH up-regulates its own receptors whereas most ligands down-regulate the respective receptor; 2) PKC up-regulates GnRH receptors whereas in most cases PKC down-regulates the ligand receptor; 3) GnRH stimulation of PLC activity is most likely mediated by Gp whereas some Ca2(+)-mobilizing ligands operate via Gi; 4) Activated PKC does not exert negative feedback upon GnRH-induced inositol phosphate production as is the case with several other peptides; 5) Activated PKC might be responsible for Ca2+ influx whereas in several other systems PKC is inhibitory to Ca2+ influx.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Signal transduction mechanisms of Ca2+ mobilizing hormones: the case of gonadotropin-releasing hormone. 219 85

Ca2+ and protein kinase C have both been proposed as intracellular signals for subsequent phosphatidylcholine secretion by alveolar Type II cells. We have determined the relative roles of Ca2+ and protein kinase C in regulating surfactant phosphatidylcholine secretion by utilizing exogenous ATP and the phorbol ester TPA (12-O-tetradecanoylphorbol 13-acetate) as secretagogues, along with MAPTAM to chelate intracellular Ca2+ and sphingosine to inhibit endogenous protein kinase C. Exposure of Type II cells to the P2-purinoceptor agonist, ATP, results in a dose-dependent increase in surfactant phosphatidylcholine secretion from isolated alveolar Type II cells with an EC50 (concn. producing 50% of maximal response) of 2 microM. Administration of exogenous ATP to Type II cells also results in a dose-dependent increase in inositol trisphosphate production, Ca2+ mobilization and [3H]phorbol 12,13-dibutyrate ([3H]PDBu) binding as a measure of protein kinase C translocation. The EC50 in each case is 1-5 microM, indicating association of these events with surfactant phosphatidylcholine secretion. Loading Type II cells with non-hydrolysable GTP analogue (GTP[S]) inhibited ATP-induced Ca2+ mobilization, supporting the hypothesis that Type II cell P2-purinoceptors are coupled to phospholipase C via a GTP-binding protein. The ATP-induced elevation of cytosolic Ca2+ was also inhibited by MAPTAM (a cell-permeant EGTA analogue) by 90%, but MAPTAM was without effect on surfactant phosphatidylcholine secretion induced by ATP. Sphingosine inhibited both ATP- and TPA-induced surfactant phosphatidylcholine secretion as well as [3H]PDBu binding with a similar IC50 (concn. producing 50% of maximal inhibition) (10 microM). Sphingosine did not affect surfactant phosphatidylcholine secretion induced by terbutaline and did not have a significant effect on Ca2+ mobilization induced by exogenous ATP. These results are consistent with a prominent role for protein kinase C in regulation of P2-purinoceptor-induced surfactant phosphatidylcholine secretion, and indicate that Ca2+ mobilization is not a necessary step for ATP-induced surfactant phosphatidylcholine secretion.
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PMID:P2-purinoceptor regulation of surfactant phosphatidylcholine secretion. Relative roles of calcium and protein kinase C. 231 95


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