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)

Water proton nuclear magnetic resonance (NMR) relaxation rates were used to identify metal sites on protein kinase C (PKC) isozymes alpha and beta using paramagnetic Gd3+ as a probe. The paramagnetic effect of Gd3+ on water proton relaxation was enhanced with PKC isozymes alpha and beta in the presence of diheptanoylphosphatidylcholine/1,2-dioleoyl-sn-glycerol (PC7/DO). The data are consistent with a single class of metal-binding sites on PKC beta and two classes of sites on PKC alpha: a single high-affinity site with a KD for Gd3+ of 0.2 microM and a larger class of sites with a lower affinity for Gd3+. Titration with Ca2+ abolished the observed enhancement of water proton relaxation by the PKC alpha.Gd3+ complex, consistent with displacement of Gd3+ by Ca2+. Titrations of the PKC alpha.Gd3+ complex with Co(NH3)4ATP, a substitution-inert analogue of ATP, caused a substantial decrease in the observed water proton relaxation enhancement, consistent with formation of a ternary enzyme.metal.substrate complex with a KPKC alpha.Gd.[CoATP] of 30-100 nM. Titration of the metal enzyme complex with a model peptide substrate derived from the pseudosubstrate sequence of PKC alpha caused a similar decrease in enhancement at stoichiometric concentrations consistent with the formation of a PKC alpha.Gd3+.peptide complex with a KPKC alpha.Gd.[peptide] of less than or equal to 13 nM. Titrations of the fully formed PKC alpha.Gd3+.peptide complex with Co(NH3)4ATP caused a further decrease in enhancement consistent with formation of a quaternary complex.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:High-affinity Ca(2+)- and substrate-binding sites on protein kinase C alpha as determined by nuclear magnetic resonance spectroscopy. 151 Sep 56

Subconfluent cultures of LLC-PK1 cells were incubated for 1 h in Krebs-Henseleit buffer (KHB) of pH 7.4 or 6.8 to investigate the signal transduction events associated with prostaglandin F2 alpha (PGF2 alpha) inhibition of ammonia metabolism. Exposure of these cultures to PGF2 alpha (0.1 ng/ml) inhibited the acute low pH stimulation of ammonia production and to a lesser degree alanine formation in a manner analogous to the response exhibited with the phorbol ester 12-O-tetradecanoylphorbol-13-acetate (TPA). Pretreatment with an inhibitor of protein kinase C [1-(5-isoquinolinylsulfonyl)-2-methylpiperazine, i.e., H-7] or utilization of cultures with downregulated protein kinase C activity abolished the inhibitory response to PGF2 alpha. Exposure to PGF2 alpha for 10 min in KHB of pH 6.8 resulted in an activation of protein kinase C, as demonstrated by a significant increase in membrane-bound enzyme activity. Incubation of the cells with PGF2 alpha in KHB of pH 6.8 also resulted in a significant increase in inositol trisphosphate formation. Treatment of the cultures with verapamil in calcium-containing medium or removal of calcium from the incubating medium resulted in a significant loss of the PGF2 alpha inhibitory response on both ammonia and alanine production. Furthermore, under conditions of calcium-free incubation, PGF2 alpha had no significant effect on protein kinase C activity. Because both PGF2 alpha- and TPA-induced inhibition of ammoniagenic response to acute acidosis was prevented by amiloride, the underlying mechanism may involve protein kinase C-mediated changes in intracellular pH. These results indicate that the activation of protein kinase C plays a key role in mediating PGF2 alpha inhibition of ammoniagenesis.
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PMID:Signal transduction events whereby PGF2 alpha inhibits the ammoniagenic response to acute acidosis. 162 19

Phenothiazines are known to inhibit the activity of protein kinase C. To identify structural features that determine inhibitory activity against the enzyme, we utilized a semiautomated assay [Anal. Biochem. 187:84-88 (1990)] to compare the potency of greater than 50 phenothiazines and related compounds. Potency was decreased by trifluoro substitution at position 2 on the phenothiazine nucleus and increased by quinoid structures on the nucleus. An alkyl bridge of at least three carbons connecting the terminal amine to the nucleus was required for activity. Primary amines and unsubstituted piperazines were the most potent amino side chains. We selected 7,8-dihydroxychlorpromazine (DHCP) (IC50 = 8.3 microM) and 2-chloro-9-(3-[1-piperazinyl]propylidene)thioxanthene (N751) (IC50 = 14 microM) for further study because of their potency and distinct structural features. Under standard (vesicle) assay conditions, DHCP was noncompetitive with respect to phosphatidylserine and a mixed-type inhibitor with respect to ATP. N751 was competitive with respect to phosphatidylserine and noncompetitive with respect to ATP. Using the mixed micelle assay, DHCP was a competitive inhibitor with respect to both phosphatidylserine and ATP. DHCP was selective for protein kinase C compared with cAMP-dependent protein kinase, calmodulin-dependent protein kinase type II, and casein kinase. N751 was more potent against protein kinase C compared with cAMP-dependent protein kinase and casein kinase but less potent against protein kinase C compared with calmodulin-dependent protein kinase type II. DHCP was analyzed for its ability to inhibit different isoenzymes of protein kinase C, and no significant isozyme selectivity was detected. These data provide important information for the rational design of more potent and selective inhibitors of protein kinase C.
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PMID:Structure-activity relationships of phenothiazines and related drugs for inhibition of protein kinase C. 194 44

The role of protein kinase C in activation of the plasma membrane Na+/H+ exchanger was studied in cultured vascular smooth muscle cells. The basic lipid, sphingosine, was used to block enzymatic activity of protein kinase C. Na+/H+ exchange was activated by phorbol 12-myristate 13-acetate (PMA), diacylglycerols, platelet-derived growth factor (PDGF), thrombin, or by osmotically-induced cell shrinkage. Intracellular pH and Na+/H+ exchange activity were measured using the intracellular pH indicator, 2',7'-bis(carboxyethyl)-5(6) carboxyfluorescein. Acting alone, both crude sphingosine and pure, synthetic C18 D-(+)-erythro-sphingosine raised pHi in a dose-dependent manner (from 6.95 +/- 0.02 to 7.19 +/- 0.09 over 10 min for 10 microM sphingosine). This alkalinization was not due to Na+/H+ exchange as it was not altered by t-butylamiloride (50 microM) nor by replacement of the assay medium with a Na(+)-free solution. Sphingosine-induced alkalinization did not require protein kinase C activity, since it was fully intact in protein kinase C-depleted cells. It was also not due to a detergent action of sphingosine on the cell membrane, since both ionic and non-ionic detergents caused cell acidification. Rather, alkalinization induced by sphingosine appeared to be due to cellular uptake of NH3 groups since N-acetylsphingosine showed no alkalinization. After the initial cell alkalinization, cellular uptake of [3H]sphingosine continued slowly for up to 24 h. The ability of PMA or dioctanoylglycerol to activate Na+/H+ exchange fell to 20% of control after 24 h of sphingosine exposure. At all times, C11 and N-acetylsphingosine failed to block PMA-induced activation of the exchanger. Activation of the Na+/H+ exchanger by sucrose, which does not depend on protein kinase C activity, was unaffected by sphingosine. Activation of Na+/H+ exchange by thrombin and PDGF was partially inhibited by 30 and 20%, respectively. These data indicate that both thrombin and PDGF activate Na+/H+ exchange by pathway(s) that are primarily independent of protein kinase C.
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PMID:Sphingosine differentially inhibits activation of the Na+/H+ exchanger by phorbol esters and growth factors. 215 91

Studies were performed to investigate regulatory pathways of loop diuretic-sensitive Na+/K+/Cl- cotransport in cultured rat glomerular mesangial cells. Angiotensin II, alpha-thrombin, and epidermal growth factor (EGF) all stimulated Na+/K+/Cl- cotransport in a concentration-dependent manner. Pertussis toxin pretreatment reduced the effects of angiotensin II and alpha-thrombin but not that of EGF. Addition of the protein kinase C inhibitor staurosporine or down-regulation of protein kinase C by prolonged incubation with phorbol 12-myristate 13-acetate partially reduced the effects of angiotensin II and alpha-thrombin and completely blunted the phorbol 12-myristate 13-acetate-induced stimulation of Na+/K+/Cl- cotransport but did not affect EGF-induced stimulation. Exposure of cells to a calcium ionophore, A23187, resulted in a concentration-dependent stimulation of Na+/K+/Cl- cotransport, which was not significantly inhibited by down-regulation of protein kinase C but was completely inhibited by the calmodulin antagonist, N-(6-aminohexyl)-5-chloro-1-naphthalenesulfonamide (W-7). Stimulation of the cotransport by angiotensin II or alpha-thrombin was also partially inhibited by W-7. Inhibitory effects of protein kinase C down-regulation and W-7 were additive and, when combined, produced a complete inhibition of angiotensin II-induced stimulation of Na+/K+/Cl- cotransport. In saponin-permeabilized mesangial cells, phosphorylation of a synthetic decapeptide substrate for Ca2+/calmodulin-dependent kinase II, Pro-Leu-Ser-Arg-Thr-Leu-Ser-Val-Ser-Ser-NH3, was demonstrated. Maximal activation of the decapeptide substrate phosphorylation required the presence of Ca2+ and calmodulin and was dependent on Ca2+ concentration. These findings indicate that stimulation of Na+/K+/Cl- cotransport by angiotensin II and alpha-thrombin is mediated by protein kinase C and Ca2+/calmodulin-dependent kinases whereas the action of EGF is mediated by other pathways.
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PMID:Agonist stimulation of Na+/K+/Cl- cotransport in rat glomerular mesangial cells. Evidence for protein kinase C-dependent and Ca2+/calmodulin-dependent pathways. 217 Mar 89

We investigated the effect of the phorbol ester TPA (12-O-tetradecanoyl phorbol 13-acetate) on the egg morphology of the sea urchin Arbacia lixula. Our study indicates that TPA alters the cortical region of the egg: the pigment granules migrate toward the surface, while cortical granules detach from the plasma membrane. Cortical granule exocytosis did not occur but the endocytosis process was turned on. Prolonged treatment of the eggs by TPA partially inhibits the cortical granule exocytosis normally triggered by fertilization. We discuss the effects of TPA in terms of its interaction with the Ca2+ pool and cytoskeletal structures. In order to discern the respective roles of pHi and protein kinase C activity in endocytosis process activation, we compared the ultrastructural effects of TPA and ammonia. Finally, the role of pigment vesicles in egg metabolism activation is discussed.
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PMID:Structural modifications induced by TPA (12-O-tetradecanoyl phorbol-13-acetate) in sea urchin eggs. 313 58

The ionic events linked to activation of surf clam (Spisula solidissima) oocytes include a transient increased Ca2+ influx and an acid release. The aim of the present work was to further elucidate the respective roles of these two ionic events and to clarify the possible role of protein kinase C in the sequence of events leading to oocyte activation. K+-enriched seawater, ammonium chloride, and the phorbol ester 12-O-tetradecanoyl-13-phorbol acetate (TPA), a protein kinase C activator, were tested for their ability to promote germinal vesicle breakdown (GVBD), an acid release, increased 45Ca2+ uptake, and a shift in the pattern of protein synthesis. Oocytes activated by addition of K+ ions release an amount of H+ similar to that induced by fertilization, with the same time course, show an increased, verapamil-sensitive, 45Ca2+ uptake that is proportional to the amount of added K+, and undergo a shift in their pattern of protein synthesis, which requires the presence of external Ca2+. Ammonium chloride, at concentrations causing a higher production of acid than that induced by K+ ions or fertilization, does not trigger GVBD nor any increased 45Ca2+ uptake or any detectable shift in the pattern of protein synthesis. Combined additions of ammonium chloride with subthreshold concentrations of K+ ions allow GVBD to occur, thus revealing a synergistic effect of ammonia and K+ ions. TPA slowly induces GVBD, an Na+-dependent acid release, and a shift in the pattern of protein synthesis, in the absence of increased 45Ca2+ uptake. Our results lead us to propose the following sequence of events for the activation of Spisula oocytes: an increased Ca2+ influx contributes to activate protein kinase C which causes a Na+-dependent acid release leading to a rise of pHi. This rise of pHi, although insufficient by itself, may set the pHi in a permissive range for activation to occur through the action of other protein kinase C-sensitive events leading to the production of meiosis-inducing proteins.
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PMID:The relationships between early ionic events, the pattern of protein synthesis, and oocyte activation in the surf clam, Spisula solidissima. 335 Feb 8

Amine secretion from electropermeabilized bovine chromaffin cells and human platelets requires Ca2+ and MgATP. There appears to be little correlation between the pH or potential of the interior of the amine storage granules of the chromaffin cells and the Ca2+ sensitivity or extent of secretion. The Ca2+ sensitivities of secretion for both preparations are increased by activators of protein kinase C. In the platelet, thrombin also increases the Ca2+ sensitivity. The thrombin-induced response is further enhanced by micromolar levels of GTP. The non-hydrolysable analogue GTP gamma S also potentiates the Ca2+-dependent secretory response, but this effect is additive to that seen by thrombin rather than synergistic, as is the case with GTP. GTP gamma S inhibits catecholamine secretion from bovine chromaffin cells. In both preparations the effects of GTP gamma S are inhibited by 10 microM GTP, even though GTP concentrations up to 1 mM are without effect when added alone. These results are consistent with there being two sites of action for the guanine nucleotides, one at the level of the agonist receptor and activated by GTP or one of its breakdown products, and the other one activated by GTP gamma S--possibly at the level of protein kinase C itself.
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PMID:Calcium and exocytosis. 349 44

Angiotensin II (AngII) is a hormone that alters contractility as well as myocyte growth in heart. Since many hormones that regulate cardiac contractility have also been found to modulate intracellular pH (pHi) the goal of this study was to determine if AngII altered pHi in cultured neonatal rat ventricular myocytes. Changes in pHi were monitored in single cells using the fluorescent pH indicator carboxy-seminaphthorhodafluor-1. Application of 100 nM AngII resulted in a rapid, receptor-mediated alkalinization of 0.08 +/- 0.02 pH unit. The Na+/H+ exchanger was not involved since the response was HCO3(-)-dependent and amiloride-insensitive. Ammonia rebound experiments showed AngII increased the initial rate of recovery from an imposed acid load by 3.15-fold and showed that the hormone led to the selective activation of the Na+/HCO3- symport. In contrast, phorbol ester activation of protein kinase C led to the selective activation of Na+/H+ antiport in these cells. Pharmacological studies showed that the alkalinization was independent of the AngII receptor subtype 1 (AT1) phosphoinositide signaling path. In contrast, AngII activation of the symport was blocked by nanomolar AT2 receptor antagonist PD 123319. Superfusion of the myocytes with exogenous arachidonic acid (5 microM) mimicked the AngII-mediated alkalinization, further suggesting that the AT2 signaling pathway underlies the response. In summary, while most of the known actions of AngII in heart are mediated through AT1 receptors, activation of the Na+/HCO3- symport occurs through a distinct alternative path that is likely related to fatty acid production.
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PMID:Angiotensin II activates the Na+/HCO3- symport through a phosphoinositide-independent mechanism in cardiac cells. 765 18

In summary, we propose that acute ammonia intoxication leads to increased extracellular concentration of glutamate in brain and results in activation of the NMDA receptor. Activation of this receptor mediates ATP depletion and ammonia toxicity since blocking the NMDA receptor with MK-801 prevents both phenomena. Ammonia-induced metabolic alterations (in glycogen, glucose, pyruvate, lactate, glutamine, glutamate, etc) are not prevented by MK-801 and, therefore, it seems that they do not play a direct role in ammonia-induced ATP depletion nor in the molecular mechanism of acute ammonia toxicity. The above results suggest that ammonia-induced ATP depletion is due to activation of Na+/K(+)-ATPase, which, in turn, is a consequence of decreased phosphorylation by protein kinase C. This can be due to decreased activity of PKC or to increased activity of a protein phosphatase. We also show that L-carnitine prevents glutamate toxicity in primary neuronal cultures. The results shown indicate that carnitine increases the affinity of glutamate for the quisqualate type (including metabotropic) of glutamate receptors. Also, blocking the metabotropic receptor with AP-3 prevents the protective effect of L-carnitine, indicating that activation of this receptor mediates the protective effect of carnitine. We suggest that the protective effect of carnitine against acute ammonia toxicity in animals is due to the protection against glutamate neurotoxicity according to the above mechanisms.
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PMID:Molecular mechanism of acute ammonia toxicity and of its prevention by L-carnitine. 774 Oct 17


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