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)

Activators of protein kinase C, a calcium- and phospholipid-dependent protein kinase, inhibit vasopressin-stimulated water flow in toad bladder. To determine the biochemical mechanisms of this inhibition, we examined the effects of activators of protein kinase C on arginine vasopressin (AVP)-stimulated adenylate cyclase activity in cultured rabbit cortical collecting tubular cells. The phorbol ester, 4 beta-phorbol 12-myristate 13-acetate (PMA), the diacylglycerol, 1-oleyl-2-acetyl glycerol (OAG), and the diacylglycerol kinase inhibitor, R59022, all rapidly activate protein kinase C in collecting tubular cells. Pretreatment with PMA produces a delayed inhibition (greater than or equal to 4 h) of AVP-stimulated adenylate cyclase activity. The 4-h time lag suggests that the effects of protein kinase C are mediated indirectly, possibly as a consequence of stimulating cell proliferation. PMA does not inhibit cholera toxin- or forskolin-stimulated adenylate cyclase activity, suggesting an effect on the vasopressin receptor or coupling of the receptor to the stimulatory guanine nucleotide regulatory protein. Neither prostaglandins nor the inhibitory guanine nucleotide regulatory protein appear to mediate this effect. In contrast, treatment with either OAG or R59022 produces a rapid inhibition of both AVP- and forskolin-stimulated adenylate cyclase activity suggesting a prominent distal site of action, presumably at the catalytic subunit of adenylate cyclase. The results demonstrate that different activators of protein kinase C inhibit AVP-stimulated adenylate cyclase activity by distinctly different mechanisms possibly by altering the substrate specificity or activating multiple forms of the kinase. These results have important implications when using different activators to study the biological effects of protein kinase C.
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PMID:Phorbol esters inhibit adenylate cyclase activity in cultured collecting tubular cells. 333 16

Human myeloid leukemia KG-1 cells are induced to differentiate to macrophage-like cells by tumor-promoting phorbol esters, such as 12-O-tetradecanoylphorbol-13-acetate (TPA). Cells from the cloned subline, KG-1a, unlike the parental line, are resistant to the differentiating effect of TPA. In the present studies, we investigated in these cells protein phosphorylation stimulated by various protein kinase C activators, including 1-oleoyl-2-acetylglycerol in the presence of the diacylglycerol kinase inhibitor R59022, TPA, mezerein, and bryostatin. All the agents stimulated, to a greater extent and with a higher potency, phosphorylation of several proteins in KG-1 cells than in KG-1a cells. On the other hand, these agents markedly stimulated phosphorylation of other proteins in KG-1a cells compared to that in KG-1 cells. The findings indicated that the actions of the diacylglycerol, 1-oleoyl-2-acetylglycerol, and the non-metabolizable activators (TPA, mezerein, and bryostatin) were very similar but not fully equivalent; and that KG-1a cells exhibited altered (increased or decreased) phosphorylation patterns, perhaps related to the TPA resistance characteristic of this subline of cells.
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PMID:Differential effects of various protein kinase C activators on protein phosphorylation in human acute myeloblastic leukemia cell line KG-1 and its phorbol ester-resistant subline KG-1a. 346 14

The subcellular distribution of diacylglycerol- and monoacylglycerol-lipases has been studied in human platelets. Using a fractionation procedure on Percoll gradient (Perret, B., Chap, H. and Douste-Blazy, L. (1979) Biochim. Biophys. Acta 556, 434-446), the enzyme activity displayed the same profile as that of [3H]concanavalin A, a plasma membrane marker. This result was confirmed with highly purified platelet plasma membranes prepared by adsorption onto polyethylenimine-bonded polyacrylamide beads (Kinoshita, T., Nachman, R.L. and Minick, R. (1979) J. Cell Biol. 82, 688-696). Studies with isolated membranes or crude homogenate revealed that the enzyme requires calcium or magnesium and displays an optimal pH of 6.2, showing that it is able to hydrolyse diacylglycerol under conditions where phosphatidylinositol-specific phospholipase C is fully active. Using diacylglycerol labelled in the 1- or 2-position, it was found that the two fatty acids are released at the same rate, which is supported by the lack of monoacylglycerol accumulation and by the observation that monoacylglycerol is hydrolysed at a 20-fold faster rate than diacylglycerol. Increasing concentrations of Mg-ATP promote the conversion of diacylglycerol into phosphatidic acid by diacylglycerol kinase, but only high concentrations become inhibitory for diacylglycerol lipase. These results are discussed in the light of our former hypothesis that arachidonic acid release from platelet phospholipids might occur through the sequential action of a phosphatidylinositol-specific phospholipase C coupled to a diacylglycerol lipase (Mauco, G., Chap, H., Simon, M.F. and Douste-Blazy, L. (1978) Biochimie 60, 553-561). The possible role of this enzyme in the regulation of the activity of protein kinase C is also emphasized.
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PMID:Studies on enzymes related to diacylglycerol production in activated platelets. II. Subcellular distribution, enzymatic properties and positional specificity of diacylglycerol- and monoacylglycerol-lipases. 649 9

The effects of cochlioquinone A, isolated from Drechslera sacchari, were studied in vitro and in vivo. This compound specifically inhibited diacylglycerol kinase activity with Ki = 3.1 microM. The kinetics revealed that cochlioquinone A inhibited diacylglycerol kinase in competition with ATP, and non-competitively with diacylglycerol. The compound inhibited neither protein kinase C, epidermal growth factor receptor-associated protein tyrosine kinase, nor phospholipase C. Cochlioquinone A reduced the concentration of phosphatidic acid in T cell lymphoma with a half maximal concentration of 3 microM, and simultaneously augmented the phosphorylation of 80 kDa protein, a known substrate of protein kinase C. The degree of the phosphorylation of 80 kDa protein in the presence of cochlioquinone A was similar to that in the presence of phorbol myristate acetate (0.1 microgram/ml). These results demonstrate that cochlioquinone A is a specific inhibitor of diacylglycerol kinase, which regulates the activity of protein kinase C.
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PMID:Cochlioquinone A, an inhibitor of diacylglycerol kinase. 749 Feb 10

Sphingosine is known to regulate a variety of cellular functions through protein kinase C-dependent or independent pathways. In an attempt to investigate differential functions of diacylglycerol kinase (DGK) isozymes, we tested the effect of sphingosine on DGK operating in intact Jurkat cells, a human T-cell line. We found that phosphatidic acid (PA) synthesized from endogenous diacylglycerol (DG) and exogenously added short-chain DGs like dioctanoylglycerol were markedly enhanced by approx. 20 microM sphingosine. Further studies such as the use of protein kinase C down-regulated cells, mass measurements of cellular DGs, analysis of molecular species of PA and the effect of exogenous DG on the conversion of endogenous DG to PA suggested that sphingosine directly activated cellular DGK having a broad specificity toward DG molecular species.
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PMID:Sphingosine activates cellular diacylglycerol kinase in intact Jurkat cells, a human T-cell line. 754 13

Calphostin C is an anti-tumor agent that binds to the regulatory domain of protein kinase C and inhibits the binding of phorbol dibutyrate. Recent studies suggest that there may be structural similarities between protein kinase C (PKC) and diacylglycerol kinase (DGK). Both enzymes bind diacylglycerol and phosphatidylserine, and sequencing of the 80 kDa diacylglycerol kinase shows that it contains zinc finger-like sequences, similar to those occurring in PKC. Similarities in some enzymatic properties of PKC and DGK led us to examine whether regulatory-site inhibitors of PKC also might inhibit DGK. For these studies, the membrane-bound DGK was partially purified from porcine testis membranes. Calphostin C inhibited DGK with an IC50 in the micromolar range. The inhibition of DGK by calphostin C was competitive with respect to diacylglycerol and was not affected by the presence or absence of phosphatidylserine. Other inhibitors of protein kinase C were without effect, with the exception of Adriamycin, which inhibited at millimolar concentrations. Staurosporine, which binds to the catalytic domain of protein kinase C, did not inhibit DGK. The results suggest that there are functional similarities between the substrate binding site of DGK and the regulatory site of protein kinase C.
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PMID:Inhibition of diacylglycerol kinase by the antitumor agent calphostin C. Evidence for similarity between the active site of diacylglycerol kinase and the regulatory site of protein kinase C. 763 68

Changes in diacylglycerol kinase (DG kinase) activity in carbachol (CCh)-stimulated guinea pig taenia coli were investigated. In a mixed micellar assay system, added 1,2-dioctanoyl-sn-glycerol (diC8) and endogenous DG were competitively bound to common DG kinase isozymes from guinea pig taenia coli and phosphorylated, suggesting that diC8 is useful as a probe of agonist effects on DG kinase activity. In phosphorus-32 ([32P]Pi)- and diC8-prelabeled guinea pig taenia coli, diC8 was phosphorylated by DG kinase to [32P]dioctanoyl-phosphatidic acid ([32P]diC8-PA). CCh increased the accumulation of both [32P]diC8-PA and endogenous [32P]phosphatidic acid ([32P]PA) in a time- and dose-dependent manner (0.1-100 microM CCh). CCh-induced increases in [32P]diC8-PA and [32P]PA were inhibited by 1 microM atropine and 3 microM DG kinase inhibitor (R59022). These findings indicated the activation of DG kinase by muscarinic receptor stimulation in guinea pig taenia coli. Therefore, DG kinase activation may play an important role in CCh-induced PA formation. CCh-induced [32P]diC8-PA and [32P]PA accumulation was dependent on intracellular calcium concentrations. However, a KCl-induced increase in intracellular calcium, without receptor stimulation, was ineffective. Moreover, treatment with phorbol ester also increased accumulation of both PA species in KCl-treated tissues. These findings suggest that muscarinic receptor mediated activation of DG kinase may require both an increase in intracellular calcium and PKC activation in guinea pig taenia coli.
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PMID:Activation of diacylglycerol kinase by carbachol in guinea pig taenia coli. 780 89

Mechanisms of Ca2+ sensitization of both myosin light chain (MLC) phosphorylation and force development by protein kinase C (PKC) were studied in permeabilized tonic smooth muscle obtained from the rabbit femoral artery. For comparison, the Ca2+ sensitizing effect of guanosine 5'-O-(gamma-thiotriphosphate) (GTP gamma S) was examined, which had been previously shown to inhibit MLC phosphatase in phasic vascular smooth muscle. We now report that PKC activators (phorbol esters, short chain synthetic diacylglycerols and a diacylglycerol kinase inhibitor) and GTP gamma S significantly increase both MLC phosphorylation and force development at constant [Ca2+]. Major phosphorylation site occurring in the presence of phorbol-12,13-dibutyrate (PDBu) or GTP gamma S at constant [Ca2+] is the same serine residue (Ser-19) as that phosphorylated by MLC kinase in response to increased Ca2+ concentrations. In an ATP- and Ca(2+)-free solution containing 1-(5-chloronaphthalene-1-sulfonyl)-1H-hexahydro-1,4-diazepine (ML-9), to avoid the kinase activity, both PDBu and GTP gamma S significantly decreased the rate of MLC dephosphorylation to half its control value. However, PDBu inhibited the relaxation rate more than did GTP gamma S. In the presence of microcystin-LR to inhibit the phosphatase activity, neither PDBu nor GTP gamma S affected MLC phosphorylation and force development. These results indicate that PKC, like activation of GTP binding protein, increases Ca2+ sensitivity of both MLC phosphorylation and force production through inhibition of MLC phosphatase.
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PMID:A novel mechanism for the Ca(2+)-sensitizing effect of protein kinase C on vascular smooth muscle: inhibition of myosin light chain phosphatase. 780 49

Phosphatidic acid has been proposed to contribute to the mitogenic actions of various growth factors. In 32P-labeled neonatal rat cardiac fibroblasts, 100 nM [Sar1]angiotensin II was shown to rapidly induce formation of 32P-phosphatidic acid. Levels peaked at 5 min (1.5-fold above control), but were partially sustained over 2 h. Phospholipase D contributed in part to phosphatidic acid formation, as 32P- or 3H-phosphatidylethanol was produced when cells labeled with [32P]H3PO4 or 1-O-[1,2- 3H]hexadecyl-2-lyso-sn-glycero-3-phosphocholine were stimulated in the presence of 1% ethanol. [Sar1]angiotensin II-induced phospholipase D activity was transient and mainly mediated through protein kinase C (PKC), since PKC downregulation reduced phosphatidylethanol formation by 68%. Residual activity may have been due to increased intracellular Ca2+, as ionomycin also activated phospholipase D in PKC-depleted cells. Phospholipase D did not fully account for [Sar1]angiotensin II-induced phosphatidic acid: 1) compared to PMA, a potent activator of phospholipase D, [Sar1]angiotensin II produced more phosphatidic acid relative to phosphatidylethanol, and 2) PKC downregulation did not affect [Sar1]angiotensin II-induced phosphatidic acid formation. The diacylglycerol kinase inhibitor R59949 depressed [Sar1]angiotensin II-induced phosphatidic acid formation by only 21%, indicating that activation of a phospholipase C and diacylglycerol kinase also can not account for the bulk of phosphatidic acid. Thus, additional pathways not involving phospholipases C and D, such as de novo synthesis, may contribute to [Sar1]angiotensin II-induced phosphatidic acid in these cells. Finally, as previously shown for [Sar1]angiotensin II, phosphatidic acid stimulated mitogen activated protein (MAP) kinase activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Angiotensin II induces phosphatidic acid formation in neonatal rat cardiac fibroblasts: evaluation of the roles of phospholipases C and D. 789 71

In resting DDT1MF-2 smooth muscle cells, the cytosolic free Ca2+ concentration ([Ca2+]c) was higher than the free Ca2+ concentration in the nucleus ([Ca2+]n). However, this nucleocytosolic [Ca2+] gradient was reversed by Ca2+ agonists like ATP or, as is shown here, by the epidermal growth factor (EGF). The ATP-induced reversal of the nucleocytosolic [Ca2+] gradient was blocked by stimulation of protein kinase C with phorbol 12-myristate 13-acetate or with the diacylglycerol kinase inhibitor R59949, or by inhibition of the Ser/Thr-specific protein phosphatases-1 and -2A with okadaic acid or calyculin A. Moreover, the magnitude of the ATP-induced reversal of the [Ca2+] gradient diminished during prolonged culture of the cells. The EGF-induced [Ca2+] rise in the cytosol and nucleus was blocked by okadaic acid and by the tyrosine kinase inhibitors herbimycin A and psi-tectorigenin. Our data suggest that the nucleocytosolic [Ca2+] gradient is modulated by (de)phosphorylation processes catalyzed by tyrosine protein kinases, by protein kinase C, and by Ser/Thr protein phosphatases-1 and -2A.
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PMID:Modulation of nucleocytosolic [Ca2+] gradient in smooth muscle by protein phosphorylation. 807 Jun 38


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