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)

Two structurally unrelated compounds, 1,1'-(2,2,2-trichloroethylidene) bis(4-chlorobenzene) (DDT) and 12-O-tetradecanoylphorbol-13-acetate (TPA), are both potent inhibitors of cell-cell communication in vitro as well as tumour promoters in vivo. There is evidence that TPA acts via a specific receptor mechanism involving activation of protein kinase C (pkC). The mechanism of action of DDT has been discussed in terms of membrane perturbation, increased intracellular calcium, interaction with calmodulin and decreased cAMP levels. In the present study the objective was to examine the potential role of pkC activation in DDT-induced inhibition of intercellular communication in cultured cells. The V79 metabolic cooperation assay was used for measuring intercellular communication. Furthermore, the effects of DDT on the activity of partially purified pkC from V79 cells was measured, as was the interaction of DDT with the phorbol ester/DAG-binding site on the pkC enzyme. Results from the biochemical studies showed that DDT neither activates pkC nor binds to the phorbol ester/DAG-binding site, as measured by displacement of PDBU binding. Using the metabolic cooperation assay it was demonstrated that pretreatment with TPA made cells refractory, i.e. a second application of TPA did not inhibit cell-cell communication. DDT added to cells down-regulated with TPA inhibited cell-cell communication, even though these cells were refractive to TPA. This result further supports the hypothesis that DDT and TPA inhibit intercellular communication primarily by different pathways. At non-cytotoxic concentrations, pkC inhibitors (H7, W7 and palmitoyl carnitine) did not affect the TPA- or DDT-induced inhibition of cell-cell communication in the V79 metabolic cooperation assay. Quercetin, a pkC inhibitor which has been reported to eliminate DDT- or TPA-induced inhibition of intercellular communication, was investigated in an in vivo study that measured promotion of enzyme-altered foci in DEN-treated rat liver. Quercetin co-administered with DDT did not act as an antipromoter.
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PMID:Mechanistic studies on the DDT-induced inhibition of intercellular communication. 256 19

PKC (80 kDa) can be cleaved by limited proteolysis into distinct catalytic (50 kDa) and regulatory (32-35 kDa) fragments. After cleavage, the catalytic fragment is active in the absence of Ca2+, phospholipid, or DAG while the regulatory fragment is found associated with phospholipid and continues to bind phorbol esters in a Ca2(+)- and PS-dependent manner (28, 29). In the holoenzyme, the association of the regulatory domain with the membrane may be important to release the catalytic domain from inhibition by the regulatory domain. We have presented evidence indicating that effective membrane binding occurs through interaction with the hydrophobic and/or interfacial regions of the bilayer, and does not result from binding to individual phospholipids. In vivo and in vitro studies suggest that the binding event is carefully regulated. An important function of Ca2+ may be to modify the local structure of the membrane, and thus affect the ability of PKC to associate with it. For at least one of the isozymes, however, Ca2+ may also play an additional role at a site distant from the membrane, suggesting the possibility that the isozymes may be differentially regulated.
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PMID:Activation of protein kinase C by short chain phospholipid micelles. 261 67

Several monoclonal antibodies directed against a number of T cell surface molecules are used to elucidate the role of these molecules (cell surface molecules) in T cell activation. The activation of T cells via these molecules are both antigen-dependent (CD3/TcR complex) and antigen-independent. Irrespective of their antigen dependency, these monoclonal antibodies activate T cells by a classical signal transduction pathway, in which the binding of monoclonal antibodies to their cell surface receptors leads to activation of phospholipase C resulting in the depolarization of plasma membrane, hydrolysis of IP2 and IP3 and DAG, the 'second messengers'. IP3 leads to mobilization of intracellular calcium to contribute to an increase in [Ca++]i, whereas DAG causes activation and translocation of PKC and an increasing apparent affinity for Ca++. The role of IP4 in the mobilization of intracellular calcium is emerging. In addition, influx of extracellular calcium also contributes to increase in [Ca++]i. The increase in [Ca++]i following activation via some T cell surface antigen is predominantly due to intracellular mobilization of Ca++ (e.g. CD3/TcR complex), whereas activation via other T cell surface antigen, the increase in [Ca++]i is almost entirely due to an influx of extracellular calcium (e.g. CD5 antigen). All these molecules activate autocrine system of T cell growth, namely IL-2 production, IL-2 receptor expression and T cell proliferation.
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PMID:Mechanisms of transmembrane signalling in human T cell activation. 269 33

Elicitor molecules of the polyphosphoinositide cycle, inositol 1,4,5-trisphosphate (InsP3) and 1,2-diacylglycerol (1,2-DAG) play roles in the entry of calcium into the cytosol and in the elevation of protein kinase C activity, respectively. We have treated stamen hair cells of the spiderwort plant, Tradescantia virginiana, with a solution of quin2 (50 microM) or its acetoxymethyl ester, quin2-AM (50 microM) and have retarded the normally predictable rate of progression through metaphase. Metaphase arrest persists for longer than 80 min after treatment with this Ca2+-chelator, and, shortly thereafter, the cells revert to interphase without dividing. Reversal of metaphase arrest results from treatments with calcium chloride (100 microM) after 5 to 8 min or with 1,2-DAG (i.e., 60 micrograms/ml 1,2-dioctanoylglycerol) after 7 to 11 min. In control experiments, metaphase arrest could not be reversed by treatment with either magnesium sulfate or 1,3-dioctanoylglycerol. Anaphase onset was observed in these control cells after post-treatment with calcium chloride (after 4-9 min) or with 1,2-dioctanoylglycerol (after 7-13 min). The treatment of stamen hair cells in very early prophase with H-7, (i.e., 1-(5-isoquinolinesulfonyl)-2-methylpiperazine dihydrochloride), a potent protein kinase C inhibitor, extends the duration of metaphase significantly. Neither H-8 nor HA-1004, less active protein kinase C inhibitors in this class of molecules, alter the duration of metaphase to a significant extent. These results suggest that in cells arrested in metaphyase by quin2, calcium translocation plays a role in the sequence of events which culminate in anaphase.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Quin2-induced metaphase arrest in stamen hair cells can be reversed by 1,2-dioctanoylglycerol but not by 1,3-dioctanoylglycerol. 274 97

On the basis of our work, the status of PKC-mediated signal transduction in hepatocytes in chronic endotoxemia can be summarized as follows: 1. Vasopressin (10(-8) M)-induced DAG accumulation is delayed and reduced by 50%, as compared with the response of cells of saline-infused rats. 2. Under basal conditions, total PKC activity (cytosol + pellet) is elevated due to a tendency for higher cytosolic fractional activity. 3. Both TPA- and hormonally-induced (in response to VP and PE) translocation are impaired. 4. Quantitative receptor autoradiography reveals a selective decrease in [3H-PDBu] binding sites in hepatic membranes. We conclude that modulation in endotoxemia of the DAG signal elicited by VP stimulation in hepatocytes could lead to altered transmembrane control of PKC-mediated protein phosphorylation, thereby contributing to the mechanism of impairments in the regulation of cellular metabolism.
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PMID:Modification of protein kinase C (PKC) activity and diacylglycerol (DAG) accumulation in hepatocytes in continuous endotoxemia. 278 Jul 15

The protein kinase C activators phorbol ester 12-myristate 13-acetate (PMA) and 1-oleyl-2-acetylglycerol (DAG) cause platelet aggregation, secretion, and a rise in aequorin-indicated cytoplasmic Ca2+ ([Ca2+]i), but the importance of this action to platelet activation by these agonists has not been established. We found that the previous addition of PMA or DAG either enhanced or inhibited the platelet response if thrombin was subsequently added, depending on the latter's concentration. The effects of PMA or DAG on the response to thrombin were obtained only if the agonists were added in concentrations sufficient to elevate [Ca2+]i themselves. A [Ca2+]i rise also occurred after the second agonist (thrombin), but its magnitude did not necessarily correlate with subsequent aggregation, secretion, or the activation of protein kinase C as reported by the phosphorylation of a 47-kDa protein (p47). The protein kinase C inhibitor sphingosine inhibited aggregation and p47 phosphorylation caused by PMA or DAG alone or with thrombin, but the [Ca2+]i rise in response to the first agonist was not affected. PMA-induced aggregation and p47 phosphorylation were inhibited by quin2, which also inhibited protein kinase C activity in a cell-free system. We conclude that a rise in aequorin-indicated [Ca2+]i is necessary for PMA or DAG to activate platelets or to alter the subsequent platelet response to thrombin; this [Ca2+]i rise may be a prerequisite for activation of protein kinase C.
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PMID:Response of aequorin-loaded platelets to activators of protein kinase C. 291 35

Choline deficiency is associated with triacylglycerol accumulation in the liver, and is the only nutritional state known to trigger hepatic cancer spontaneously. In two different experiments, rats were pair-fed for 6 weeks with control (0.2% choline), or choline-deficient (CD) (0.002% choline) diets. Hepatic choline and phosphocholine declined in CD animals to 54% and 16% of control levels, respectively. In control livers, 1,2-sn-diacylglycerol (1,2-sn-DAG) concentration was (in nmol/g wet wt) 144 (+/- 25; mean +/- SE); while in CD livers it was 792 (+/- 140) in the first experiment. In the second experiment the values were 375 (+/- 26) and 1147 (+/- 74), respectively. 1,2-sn-DAG, a precursor of triacylglycerol, is an endogenous activator of protein kinase C (PKC). PKC is the presumed site of action of the tumor-promoting phorbol esters. We suggest that the 1,2-sn-DAG accumulating in CD liver could bind PKC, altering its activity, and thus contribute to the carcinogenic effect of CD diets.
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PMID:1,2-sn-diacylglycerol accumulates in choline-deficient liver. A possible mechanism of hepatic carcinogenesis via alteration in protein kinase C activity? 291 51

It has been proposed that cyclic AMP inhibits platelet reactivity: by preventing agonist-induced phosphoinositide hydrolysis and the resultant formation of 1,2-diacylglycerol and elevation of cytosolic free Ca2+ concentration [( Ca2+]i); by promoting Ca2+ sequestration and/or extrusion; and by suppressing reactions stimulated by (1,2-diacylglycerol-dependent) protein kinase C and/or Ca2+-calmodulin-dependent protein kinase. We used the adenylate cyclase stimulant prostaglandin D2 to compare the sensitivity to cyclic AMP of the transduction processes (phosphoinositide hydrolysis and elevation of [Ca2+]i) and functional responses (shape change, aggregation and ATP secretion) that are initiated after agonist-receptor combination on human platelets. Prostaglandin D2 elicited a concentration-dependent elevation of platelet cyclic AMP content and inhibited platelet-activating-factor(PAF)-induced ATP secretion [I50 (concn. causing 50% inhibition) approximately 2 nM], aggregation (I50 approximately 3 nM), shape change (I50 approximately 30 nM), elevation of [Ca2+]i (I50 approximately 30 nM) and phosphoinositide hydrolysis (I50 approximately 10 nM). A 2-fold increase in cyclic AMP content resulted in abolition of PAF-induced aggregation and ATP secretion, whereas maximal inhibition of shape change, phosphoinositide hydrolysis and elevation of [Ca2+]i required a greater than 10-fold elevation of the cyclic AMP content. This differential sensitivity of the various responses to inhibition by cyclic AMP suggests that the mechanisms underlying PAF-induced aggregation and ATP secretion differ from those underlying shape change. Thus a major component of the cyclic AMP-dependent inhibition of PAF-induced platelet aggregation and ATP secretion is mediated by suppression of certain components of the activation process that occur distal to the formation of DAG or elevation of [Ca2+]i.
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PMID:Inhibition of platelet-activating-factor-induced human platelet activation by prostaglandin D2. Differential sensitivity of platelet transduction processes and functional responses to inhibition by cyclic AMP. 300 27

Evidence from a variety of laboratories indicates that crosslinking of B cell mIg induces a rapid increase in intracellular free calcium (Ca++i). This mobilized Ca++ appears to act in concert with diacylglycerol (DAG; also released upon mIg cross-linking) to optimally activate Ca++/phospholipid-dependent protein kinase C, which plays a pivotal role in B cell activation. Here we report analysis of the source of this mobilized calcium and the mechanism responsible for its release into the cytosol. We observed the cross-linking of mIg induces the release of inositol 1,4,5-trisphosphate (InsP3), presumably as a result of action of phospholipase C on plasma membrane phosphatidylinositol 4,5-bisphosphate (PtdInsP2). The release of InsP3 and the elevation of Ca++i are coincidental, suggesting that they may be causally related. Finally, we demonstrate that submicromolar doses of InsP3 induce release of Ca++ from permeabilized cells that had preaccumulated 45Ca++ in the endoplasmic reticulum. On the basis of these findings we suggest that mIg cross-linking leads to mobilization of Ca++, in part by causing hydrolysis of PtdInsP2, yielding InsP3, which in turn causes release of calcium from the endoplasmic reticulum.
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PMID:Anti-Ig induces release of inositol 1,4,5-trisphosphate, which mediates mobilization of intracellular Ca++ stores in B lymphocytes. 301 2

Thus, in summary, we hypothesize that nephron loss by a time-limited insult (eg, an acute immunological insult, surgical removal of five sixths of normal nephrons) may cause events in the tubules of the remaining nephrons that contribute substantially, though not exclusively, to the inexorable progression to ESRD. Specifically, hypermetabolism in the remaining tubules as assessed by oxygen consumption and ATP synthesis rates has been found to occur. This hypermetabolism in residual nephrons appears to be due to the known increased sodium transport per nephron, but nonsodium transport events also appear to be involved. With respect to the latter phenomenon, we propose that an increase in growth factor response per tubule, as a mechanism of renal hypertrophy, activates the DAG----protein kinase C----Na/H antiporter system. We have evidence in support of this sequence of events by the demonstration of a two-fold increase in membrane (particulate) protein kinase C within 24 hours after removal of the contralateral kidney and an increase in intracellular pH as assessed by NMR spectroscopy. Activation of the Na/H antiporter not only leads to proton extrusion and cellular alkalinization, which may activate cellular alkalinization, which may activate cellular enzymes such as phospholipases, but also increases intracellular Na concentration, thereby further increasing Na/K-ATPase, ATP use, and enhancing ATP synthesis. The increase in mitochondrial oxygen consumption, which accompanies the enhanced ATP synthesis, would be expected to be associated with increased oxygen radicle generation. If the tissue scavengers of oxygen radicles are not sufficient to scavenge the increase in oxygen radicles, then lipid peroxidation and tissue damage will occur.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Tubular hypermetabolism as a factor in the progression of chronic renal failure. 304 43


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