EC:2.7.11.13 - FACTA Search

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)

In cortical collecting ducts (CCD), arginine vasopressin (AVP) has been proposed to autoinhibit its own hydrosmotic effect through stimulation of prostaglandin (PG) synthesis or binding to a receptor coupled to phosphatidylinositol (PI) hydrolysis, the so-called V1-receptor, with resultant elevation of intracellular Ca2+ concentration [( Ca2+]i) and activation of protein kinase C (PKC). Using isolated perfused rabbit CCD, we examined whether blocking the negative feedback by a PKC inhibitor, staurosporine (SSP), or a cyclooxygenase inhibitor, indomethacin (IND), enhances AVP-induced increase in hydraulic conductivity (Lp). The Lp induced by a pharmacological concentration (23 nM) of AVP was lower than that induced by 230 pM AVP. This blunted Lp response to 23 nM AVP was significantly restored by SSP or IND pretreatment. In contrast, both SSP and IND did not affect the Lp induced by 23 pM or 230 pM AVP. Fluorescence microscopy of isolated perfused CCD using fura-2 showed a spike-like increase in [Ca2+]i only by 23 nM but not by 23 or 230 pM AVP. We conclude that 1) AVP can increase [Ca2+]i, activate PKC, and stimulate PG synthesis in CCD with resultant autoregulation of its own hydrosmotic effect and 2) importantly, however, this negative feedback occurs only with pharmacologically high concentrations of AVP. Therefore it is unlikely that circulating AVP, via binding to receptors on CCD, autoregulates water transport through activating PG synthesis and/or PI breakdown.
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PMID:Dose-dependent heterogenous actions of vasopressin in rabbit cortical collecting ducts. 270 33

The role of hormones in the regulation of bile secretion is not known; however vasoactive agents, which act via the phosphoinositide signal transduction pathway, may mediate changes in bile flow by altering the hepatic microvasculature. We therefore examined the effects of phorbol esters and diacylglycerol, agonists of the protein kinase C branch of the phosphoinositide cascade, on perfusion pressure and bile flow in a single-pass, hemoglobin-free, isolated perfused rat liver system with constant perfusate flow. The active phorbol ester, 12,13-phorbol dibutyrate, produced a dose-dependent (maximal effect at 10(-6) M), sustained and reversible decrease in bile flow from 1.09 +/- 0.18 to 0.61 +/- 0.09 microliters per min per gm liver (37.2 +/- 5.9%) while simultaneously increasing perfusion pressure from 12.3 +/- 0.7 to 21.5 +/- 2.5 cm H2O (74.0 +/- 4.3%). Both effects were inhibited by the synthetic protein kinase C antagonist H-7. 1,2-Dioctanoyl-sn-glycerol, a diacylglycerol, produced changes in bile flow and perfusion pressure that were similar to, but more marked than, those caused by 12,13-phorbol dibutyrate, whereas the inactive phorbol ester 4 alpha-phorbol didecanoate and the vehicle dimethyl sulfoxide had no effects on either parameter. 12,13-Phorbol dibutyrate infusion resulted in reversible decreases in oxygen consumption (23.3%) and a reversible vascular redistribution of trypan blue dye but did not alter hepatic venous effluent concentrations of K+.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Protein kinase C agonists inhibit bile secretion independently of effects on the microcirculation in the isolated perfused rat liver. 273 5

Hyperglycemia is believed to be the major cause of diabetic vascular complications involving both microvessels and arteries as in the retina, renal glomeruli, and aorta. It is unclear by which mechanism hyperglycemia is altering the metabolism and functions of vascular cells, although changes in nonenzymatic protein glycosylation and increases in cellular sorbitol levels have been postulated to be involved. Previously, we have reported that the elevation of extracellular glucose levels with cultured bovine retinal capillary endothelial cells causes an increase in protein kinase C (PKC) activity of the membranous pool with a parallel decrease in the cytosol without alteration of its total activity. Now we demonstrate that the mechanism for the activation of PKC is due to an enhanced de novo synthesis of diacylglycerol as indicated by a 2-fold increase of [14C]diacylglycerol labeling from [14C]glucose. The elevated diacylglycerol de novo synthesis is secondarily due to increased formation of precursors derived from glucose metabolism; this formation is enhanced by hyperglycemia as substantiated by elevated [3H]glucose conversion into water. This effect of hyperglycemia on PKC is also observed in cultured aortic smooth muscle and endothelial cells and the retina and kidney of diabetic rats, but not in the brain. Since PKC in vascular cells has been shown to modulate hormone receptor turnover, neovascularization in vitro, and cell growth, we propose that this mechanism of enhancing the membranous PKC activities by hyperglycemia plays an important role in the development of diabetic vascular complications.
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PMID:Activation of protein kinase C by elevation of glucose concentration: proposal for a mechanism in the development of diabetic vascular complications. 1657 48

The effect of the protein kinase C enzyme inhibitor H-7 was examined on the brain edema formation evoked by bilateral occlusion of the common carotid arteries in Sprague-Dawley rats of CFY strain. Brain edema was assessed by measurement of water and electrolyte contents of the brain. The results showed that pretreatment with H-7 reduced the extent of brain edema formation in a dose-dependent manner. The fact that H-7 treatment prevented the accumulation of water and certain electrolytes in the brain indicates that the protein kinase C may be activated not only in the neuronal structures but also in the microvessels during ischemia, which can lead directly or via certain calcium-mediated mechanisms to the opening of tight junctions resulting in the development of brain edema.
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PMID:Inhibition by H-7 of the protein kinase C prevents formation of brain edema in Sprague-Dawley CFY rats. 275 20

1. The human erythrocyte glucose transporter was phosphorylated in vitro by protein kinase C. 2. Tryptic cleavage of phosphorylated native transporter produced two major unphosphorylated membrane-embedded fragments weighing 23 and 19 kDa and released numerous water-soluble peptides. 3. Ion-exchange FPLC of the soluble tryptic peptides resolved the mixture into two phosphopeptide peaks. 4. Tryptic digestion of glucose transporter that was phosphorylated in vivo in response to phorbol esters produced soluble phosphopeptides that eluted at identical salt concentrations. 5. Proteolytic digestion and peptide mapping of the transporter revealed that the site(s) of phosphorylation lie within the large cytoplasmic domain that bisects the molecule.
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PMID:Phosphorylation of the human erythrocyte glucose transporter by protein kinase C: localization of the site of in vivo and in vitro phosphorylation. 275 35

Addition of alcohols to NIH 3T3 fibroblasts, prelabeled with [2-14C]ethanolamine, resulted in increased degradation of [14C]phosphatidylethanolamine (PtdEtn). Long-chain alcohols, like octanol or nonanol, were more potent than methanol or ethanol. The main water-soluble product of alcohol-stimulated [14C]PtdEtn hydrolysis was [14C]ethanolamine. Addition of ethanol to cells, specifically prelabeled with [32P]PtdEtn, enhanced the formation of [32P]phosphatidic acid (PtdOH), suggesting the involvement of a phospholipase D-type enzyme. At lower concentration (10-150 mM), ethanol acted through a protein kinase C (PKC)-independent mechanism. At higher concentrations (150-300 mM), the effect of ethanol was partially inhibited both by the PKC inhibitor H7 and by the down-regulation of PKC achieved by treatment of cells with 200 nM TPA for 24 h, suggesting that activation of PKC contributed to the ethanol effect.
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PMID:Alcohols selectively stimulate phospholipase D-mediated hydrolysis of phosphatidylethanolamine in NIH 3T3 cells. 280 64

The hemopoietic growth factor, interleukin 3, has been shown to activate protein kinase C without causing hydrolysis of inositol phospholipids. The potential involvement of phosphatidylcholine hydrolysis as an alternative source of diacylglycerol was investigated in an interleukin 3-dependent murine mast/megakaryocyte cell line, R6-XE.4. Treatment of these cells with interleukin 3 rapidly stimulated both the release of water-soluble choline metabolites and the resynthesis of phosphatidylcholine. Therefore, a phosphatidylcholine cycle may operate as part of the signal transduction pathway in cells responding to interleukin 3.
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PMID:Interleukin 3 stimulates phosphatidylcholine turnover in a mast/megakaryocyte cell line. 281 89

Vasopressin and oxytocin both stimulated inositol phosphate accumulation in isolated uterine decidua cells. Pretreatment of cells with the phorbol ester 12-O-tetradecanoylphorbol 13-acetate (TPA) prevented this agonist-induced phosphoinositide hydrolysis. TPA (0.1 microM) alone had no effect on basal inositol phosphate accumulation, but stimulated phosphoinositide deacylation, as indicated by a 2-fold increase in lysophosphatidylinositol and glycerophosphoinositol. TPA also stimulated a dose-related release of arachidonic acid from decidua-cell phospholipid [phosphatidylcholine (PC) much greater than phosphatidylinositol (PI) greater than phosphatidylethanolamine]. The phorbol ester 4 beta-phorbol 12,13-diacetate (PDA) at 0.1 microM had no effect on arachidonic acid mobilization. The TPA-stimulated increase in arachidonic acid release was apparent by 2 1/2 min (116% of control), maximal after 20 min (283% of control), and remained around this value (306% of control) after 120 min incubation. TPA also stimulated significant increases in 1,2-diacylglycerol and monoacylglycerol production at 20 and 120 min. Although the temporal increases in arachidonic acid and monoacylglycerol accumulation in the presence of TPA continued up to 120 min, that of 1,2-diacylglycerol declined after 20 min. In decidua cells prelabelled with [3H]choline, TPA also stimulated a significant decrease in radiolabelled PC after 20 min, which was accompanied by an increased release of water-soluble metabolites into the medium. Most of the radioactivity in the extracellular pool was associated with choline, whereas the main cellular water-soluble metabolite was phosphorylcholine. TPA stimulated extracellular choline accumulation to 183% and 351% of basal release after 5 and 20 min respectively and cellular phosphorylcholine production to 136% of basal values after 20 min. These results are consistent with a model in which protein kinase C activation by TPA leads to arachidonic acid mobilization from decidua-cell phospholipid by a mechanism involving phospholipase A-mediated PI hydrolysis and phospholipase C-mediated PC hydrolysis, coupled with further hydrolysis of the 1,2-diacylglycerol product.
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PMID:Stimulation of phospholipid hydrolysis and arachidonic acid mobilization in human uterine decidua cells by phorbol ester. 282 48

Afterhyperpolarizations and outward tail currents of rat dorsal raphe neurons were measured by intracellular recording and single-electrode voltage clamping in the brain slice preparation. The alpha 1-agonist phenylephrine, and (in the presence of propranolol) norepinephrine, elicited an increase in the duration, but not of the initial amplitude, of afterhyperpolarizations and associated outward tail currents which followed depolarizing pulses. These effects were antagonized by prazosin, indicating that they were mediated by alpha 1-adrenoceptors. The outward tail currents were sensitive to apamin, a blocker of certain Ca2+-activated K+ currents. A prolongation of afterhyperpolarizations would offset the major excitatory alpha 1 effects, which were associated with suppression of resting K+ currents and of the A-current. Since polyphosphoinositide metabolites have been reported to be second messengers for Ca2+-dependent receptor actions, we compared their effects with those of alpha 1-receptor stimulation on these cells. Intracellular ejection of the putative second messenger myo-inositol-1,4,5-trisphosphate from the recording electrode transiently mimicked the actions of alpha 1-agonists on the afterhyperpolarization. Superfusion with 1 mM LiCl, simulating therapeutic levels of lithium, had no effect on the rate of recovery from inositol trisphosphate ejection. Superfusion with water-soluble phorbol esters (which mimic actions of another phosphoinositide metabolite, 1,2-diacylglycerol) suppressed rather than mimicked the activation of raphe cell firing by phenylephrine; this occurred with a rank-order potency consistent with activation of protein kinase C and was associated with suppression of a slow inward current and of the outward tail current. Our results suggest that phosphoinositide turnover is more likely to mediate modulatory or negative-feedback effects of alpha 1-adrenoceptors than to mediate the major excitatory effects.
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PMID:Role of phosphoinositide metabolites in the prolongation of afterhyperpolarizations by alpha 1-adrenoceptors in rat dorsal raphe neurons. 282 20

REF52, a rat embryo cell line, and several transformed derivatives were used to examine the lipid-related events associated with agonist treatment (phorbol diesters, vasopressin, fetal bovine serum). Exposure of cells, prelabeled with [3H]glycerol, to TPA (12-O-tetradecanoylphorbol 13-acetate) resulted in 3-4-fold increase in the amount of intracellular diacyl[3H]glycerols as early as 10 min after treatment. Continued incubation (up to 60 min) revealed that the diacyl[3H]glycerol formed was under dynamic metabolic regulation as shown by the production of triacyl[3H]glycerols and free [3H]glycerol. Serum and vasopressin likewise induced the generation of intracellular diacyl[3H]glycerol, thereby illustrating that physiological agents provoke a similar reaction. In the three SV-40-transformed variants examined, the diacylglycerol generative-response to TPA, serum and vasopressin, was greatly diminished or totally absent. Experiments employing REF52 cells prelabeled with [3H]choline demonstrated that both TPA and vasopressin induce the hydrolysis of cellular choline-containing glycerophospholipids; this was measured by both a decrease in cell-associated phosphatidylcholine radioactivity and an increase in the production of water-soluble [3H]choline-containing metabolites in the culture medium. 92-97% of the tritium released to the medium was identified as [3H]choline. Vasopressin treatment of REF52 cells prelabeled with [3H]arachidonic acid elicited an increase of more than 11-fold in the amount of cellular diacyl[3H]glycerol and a concomitant release of arachidonic acid to the culture medium that was 12-fold higher than controls. These data demonstrate that tumor-promoting phorbol esters (agonists of protein kinase C), serum and vasopressin, increase the levels of cellular diacylglycerol by stimulating the hydrolysis of choline-containing glycerophospholipids. This agonist-directed mechanism is inoperable in transformed cells. Further, collateral with vasopressin-induced phosphatidylcholine hydrolysis, the cellular release of arachidonic acid occurs. The participation of these lipid-related responses in the signaling of agonist-directed events and their relation to cellular homeostasis is currently being explored.
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PMID:Vasopressin, phorbol diesters and serum elicit choline glycerophospholipid hydrolysis and diacylglycerol formation in nontransformed cells: transformed derivatives do not respond. 283 Sep 3

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