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)

Ribonucleoside-diphosphate reductase (ribonucleotide reductase, EC 1.17.4.1) is the enzyme responsible for the in vivo production of deoxyribonucleotides for DNA synthesis and is essential for cell proliferation. We examined the signal transduction pathways leading to expression of the M1 and M2 subunits of this enzyme in Swiss 3T3 mouse fibroblasts by Northern blot analysis. Stimulation of quiescent cells resulted in coordinate expression of both subunits, beginning at 8 hr after serum addition, in late G1 phase, and peaking at 18-24 hr. Serum increased M2 message to 30 to 50 times that of quiescent cells, in contrast with M1 message, which was increased 10 times. Agents that elevated cAMP, including forskolin, and the cAMP analogue 8-bromo-cAMP modestly stimulated gene expression. Each of these agents was synergistic with insulin, and these combinations induced expression equivalent to that induced by serum stimulation. Likewise, agents that activate protein kinase C such as phorbol 12,13-dibutyrate, bombesin, and vasopressin were also synergistic with insulin with respect to ribonucleotide reductase gene expression, as was epidermal growth factor, which stimulates receptor tyrosine kinase activity. The time course for induction of mRNA expression by each of these agents alone or in combination was identical to that for induction stimulated by serum. Finally, the synergistic effects apparent in Northern analysis of ribonucleotide reductase gene expression were mirrored in parallel determinations of DNA synthesis. Thus, the combinatorial nature of signal transduction pathways resulting in proliferation of Swiss 3T3 cells is expressed at the level of ribonucleotide reductase gene expression.
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PMID:Synergistic and coordinate expression of the genes encoding ribonucleotide reductase subunits in Swiss 3T3 cells: effect of multiple signal-transduction pathways. 131 43

The microbial alkaloid staurosporine is a potent but nonselective inhibitor of protein kinases. The derivative CGP 41251 has been shown to exert a high degree of selectivity for inhibition of protein kinase C activity. Both compounds are powerful inhibitors of proliferation of both normal and transformed cells in vitro and exert antitumor efficacy in vivo. In this work we have studied the mode of action of these compounds by analyzing their effects on early events in the induction of proliferation by different growth stimuli. Both drugs blocked the phorbol ester-induced expression of the c-fos proto-oncogene. The effect of CGP 41251 was reversible, since its removal led to a normal expression of c-fos mRNA in response to phorbol 12-myristate 13-acetate. Submicromolar concentrations of CGP 41251 and staurosporine directly inhibited both the platelet-derived growth factor (PDGF) receptor autophosphorylation and the c-fos mRNA expression induced by PDGF stimulation of intact BALB/c 3T3 cells. In contrast, ligand-induced epidermal growth factor receptor autokinase activity in A431 carcinoma cells and epidermal growth factor-dependent c-fos mRNA expression were relatively insensitive to inhibition by CGP 41251. Staurosporine suppressed signal generation by the epidermal growth factor receptor by reducing overall levels of the receptor. We conclude that CGP 41251 is a potent reversible inhibitor of protein kinase C and PDGF-mediated signal transduction. It inhibits the kinase activity of both protein kinase C and the PDGF receptor tyrosine kinase and the subsequent signaling cascade. The broad inhibition of kinases by staurosporine is also reflected at the cellular level and might contribute to the high toxicity of this compound, in comparison to CGP 41251.
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PMID:Differential inhibition of the epidermal growth factor-, platelet-derived growth factor-, and protein kinase C-mediated signal transduction pathways by the staurosporine derivative CGP 41251. 139 40

Addition of epidermal growth factor (EGF) to quiescent Swiss 3T3 cells resulted in a sustained increase in cellular diacylglycerol (DG) content in the absence of inositol-lipid hydrolysis. In the presence of non-cytotoxic concentrations of butan-1-ol, EGF stimulated the formation of phosphatidylbutanol, indicating that the EGF receptor was able to couple to the activation of phospholipase D (PLD). EGF-stimulated release of choline from Swiss 3T3 cells suggested that the major substrate for this PLD was phosphatidylcholine. Unlike bombesin-stimulated PLD activity, the response to EGF was not inhibited by a selective protein kinase C (PKC) inhibitor (Ro-31-8220), suggesting that it was not dependent on PKC activation. Pre-treatment of Swiss 3T3 cells with the EGF-receptor tyrosine kinase inhibitor AG18 selectively inhibited EGF-stimulated PLD activity; bombesin-stimulated PLD activity was unaffected. Butan-1-ol inhibited phorbol ester- and bombesin-stimulated DG formation suggesting a role for a coupled PLD/phosphatidate phosphohydrolase pathway; in contrast, EGF-stimulated DG formation was unaffected.
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PMID:Epidermal growth factor increases sn-1,2-diacylglycerol levels and activates phospholipase D-catalysed phosphatidylcholine breakdown in Swiss 3T3 cells in the absence of inositol-lipid hydrolysis. 163 7

Staurosporine is a potent microbial inhibitor of a number of protein kinases, including protein kinase C, cyclic AMP-dependent kinase, and the tyrosine kinase pp60src. We have used staurosporine to investigate the role of phosphorylation in the regulation of the epidermal growth factor (EGF) receptor in both human epidermal carcinoma A431 cells and mouse Swiss 3T3 fibroblasts. We report here that staurosporine treatment causes enhancement in high affinity EGF binding and a decrease in the phosphorylation state of the unstimulated receptor at a number of residues, including threonine 669. Staurosporine also antagonizes the inhibition of high affinity EGF binding and the increase in phosphorylation state of the unstimulated EGF receptor by phorbol esters and the calcium ionophore A23187. Staurosporine is an effective inhibitor of the EGF-stimulated receptor tyrosine kinase in vitro and thus does not enhance EGF stimulation of EGF receptor autophosphorylation in vivo. These results suggest that phosphorylation plays a major role in the regulation of the high affinity binding state of the EGF receptor in both unstimulated and mitogenically activated cells.
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PMID:Regulation of the epidermal growth factor receptor by growth-modulating agents: effects of staurosporine, a protein kinase inhibitor. 168 32

Protein tyrosine phosphorylation has not been considered to be important for cellular activation by phospholipase C-linked vasoactive peptides. We found that endothelin, angiotensin II, and vasopressin (AVP), peptides that signal via phospholipase C activation, rapidly enhanced tyrosine phosphorylation of proteins of approximate molecular mass 225, 190, 135, 120, and 70 kDa in rat renal mesangial cells. The phosphorylated proteins were cytosolic or membrane-associated, and none were integral to the membrane, suggesting that the peptide receptors are not phosphorylated on tyrosine. Epidermal growth factor (EGF), which does not activate phospholipase C in these cells, induced the tyrosine phosphorylation of its own 175-kDa receptor, in addition to five proteins of identical molecular mass to those phosphorylated in response to endothelin, AVP, and angiotensin II. This suggests that in mesangial cells there is a common signaling pathway for phospholipase C-coupled agonists and agonists classically assumed to signal via receptor tyrosine kinase pathways, such as EGF. The phorbol ester, phorbol 12-myristate 13-acetate, and the synthetic diacylglycerol, oleoyl acetylglycerol, stimulated the tyrosine phosphorylation of proteins identical to those phosphorylated by the phospholipase C-linked peptides, suggesting that protein kinase C (PKC) activation is sufficient to active tyrosine phosphorylation. However, the PKC inhibitor, staurosporine, and down-regulation of PKC activity by prolonged exposure to phorbol esters completely inhibited tyrosine phosphorylation in response to PMA but not to endothelin, AVP, or EGF. In conclusion, endothelin, angiotensin II, and AVP enhances protein tyrosine phosphorylation via at least two pathways, PKC-dependent and PKC-independent. Although activation of PKC may be sufficient to enhance protein tyrosine phosphorylation, PKC is not necessary and may not be the primary route by which these agents act. At least one of these pathways is shared with the growth factor EGF, suggesting not only common intermediates in the signaling pathways for growth factors and vasoactive peptides but also perhaps common cellular tyrosine kinases which phosphorylate these intermediates.
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PMID:Endothelin, vasopressin, and angiotensin II enhance tyrosine phosphorylation by protein kinase C-dependent and -independent pathways in glomerular mesangial cells. 170 22

The c-raf kinase has been shown to be activated following stimulation of several tyrosine kinase growth factor receptors. We examined changes in c-raf following engagement of the T cell receptor for antigen (TCR), a stimulus which activates both a non-receptor tyrosine kinase and protein kinase C (PKC). We found that activation of the T-cell receptor on the T cell hybridoma 2B4 causes a rapid and stoichiometric hyperphosphorylation of c-raf and an increase in c-raf-associated kinase activity. Phosphoamino acid analysis showed that the phosphorylation was entirely on serine residues. High-resolution phosphopeptide mapping showed the appearance of a single major new phosphopeptide with TCR stimulation. That phosphopeptide was shown to comigrate with the major new phosphopeptide induced in response to phorbol ester. When cells were depleted of PKC by pretreatment with high concentrations of phorbol ester, TCR stimulation was no longer capable of inducing c-raf-associated kinase activity. To determine whether activation of the tyrosine kinase alone would activate c-raf, we examined the 2B4 variant cell line FL.8. In response to Thy-1 stimulation, these cells activate the tyrosine kinase but not protein kinase C due to a deficiency in TCR eta chain expression. We found that in contrast to Thy-1 stimulation of 2B4 cells, stimulation of FL.8 cells does not lead to the induction of c-raf-associated kinase activity, although phorbol ester activates the kinase to an equivalent degree in both cells. We conclude that T cell receptor activation of c-raf occurs via phosphorylation by the serine/threonine kinase PKC. Activation of c-raf through PKC represents a mechanism distinct from that reported for tyrosine kinase growth factor receptors.
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PMID:T cell antigen receptor engagement stimulates c-raf phosphorylation and induces c-raf-associated kinase activity via a protein kinase C-dependent pathway. 217 Apr 13

Ligand stimulation of the platelet-derived growth factor receptor (PDGF-R) results in rapid activation of the receptor tyrosine kinase, stimulation of phosphoinositide hydrolysis, an increase in intracellular free Ca2+ concentration ([Ca2+]i), and, ultimately, cellular proliferation. In a previous study, we demonstrated that staurosporine, a known inhibitor of protein kinase C, blocked PDGF-induced [Ca2+]i increases in Swiss mouse 3T3 fibroblasts by a mechanism that appeared unrelated to inhibition of protein kinase activity (Olsen, R., Melder, D., Seewald, M., Abraham, R., and Powis, G. (1990) Biochem. Pharmacol. 39, 968-972). In the present study, we report that staurosporine inhibits ligand-dependent PDGF-R tyrosine kinase activation in cell-free receptor preparations and in intact Swiss 3T3 cells. At the same concentrations (10(-8)-10(-6) M), staurosporine suppressed both the tyrosine phosphorylation of phospholipase C activity and the hydrolysis of phosphoinositides induced by PDGF stimulation of intact cells. In contrast, guanine nucleotide-binding protein-dependent phospholipase C activation induced by bradykinin or fluoroaluminate anion was relatively insensitive to staurosporine. A preferential inhibitory effect of staurosporine on signal generation by the PDGF-R was indicated by findings that epidermal growth factor receptor (EGF-R) tyrosine kinase activity and EGF-dependent phospholipase C in A-431 carcinoma cells were approximately 100-fold less sensitive to this drug. These data indicate that submicromolar concentrations of staurosporine inhibit PDGF-dependent phosphoinositide hydrolysis and Ca2+ mobilization through a proximal inhibitory effect on ligand-induced activation of the PDGF-R tyrosine kinase.
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PMID:Preferential inhibition of the platelet-derived growth factor receptor tyrosine kinase by staurosporine. 217 5

Chinese hamster ovary (CHO) transfectants expressing human insulin receptors that were mutated at tyrosines 1162 and 1163 (CHO-Y2 cells) exhibit decreased insulin stimulation of both receptor tyrosine kinase and 2-deoxyglucose uptake compared with transfectants expressing wild-type human insulin receptors (CHO-R cells). We now provide evidence that insulin stimulation of myristoyl-diacylglycerol (DAG) production is also markedly impaired in CHO-Y2 cells; this is manifested as a decreased responsiveness and sensitivity to insulin as compared with CHO-R and parental CHO cells. Further, we report that (i) the concentration-response curves of insulin-stimulated myristoyl-DAG production and 2-deoxyglucose uptake were superimposable within each of the three cell lines. (ii) The insulin-induced increase in myristoyl-DAG production preceded that in 2-deoxyglucose uptake, and the time course was altered for both responses in CHO-Y2 cells. (iii) Insulin also increased the phosphorylation of a 40-kDa protein known to be a substrate for protein kinase C, but to a much lesser extent in CHO-Y2 cells than in CHO-R cells. (iv) Exogenously added 1,2-dimyristoyl-glycerol and 4 beta-phorbol 12 beta-myristate 13 alpha-acetate (PMA) again stimulated both the phosphorylation of the 40-kDa protein and 2-deoxyglucose uptake, but in contrast to insulin, they elicited the same level of response in both CHO-R and CHO-Y2 cells. (v) Finally, in protein kinase C-depleted CHO-R cells, insulin and PMA stimulation of 40-kDa protein phosphorylation as well as PMA stimulation of 2-deoxyglucose uptake were completely abolished whereas insulin-stimulated 2-deoxyglucose uptake was only partially decreased. Taken together, these results suggest that insulin stimulation of 2-deoxyglucose uptake involves myristoyl-DAG production and, at least in part, protein kinase C activation, all three of these processes being controlled by receptor tyrosines 1162 and 1163.
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PMID:Insulin receptor tyrosine residues 1162 and 1163 control insulin stimulation of myristoyl-diacylglycerol generation and subsequent activation of glucose transport. 225 23

Phosphorylation of the insulin receptor beta-subunit on serine/threonine residues by protein kinase C reduces both receptor kinase activity and insulin action in cultured cells. Whether this mechanism regulates insulin action in intact animals was investigated in rats rendered insulin-resistant by 3 days of starvation. Insulin-stimulated autophosphorylation of the partially purified hepatic insulin receptor beta-subunit was decreased by 45% in starved animals compared to fed controls. This autophosphorylation defect was entirely reversed by removal of pre-existing phosphate from the receptor with alkaline phosphatase, suggesting that increased basal phosphorylation on serine/threonine residues may cause the decreased receptor tyrosine kinase activity. Tryptic removal of a C-terminal region of the receptor beta-subunit containing the Ser/Thr phosphorylation sites similarly normalized receptor autophosphorylation. To investigate which kinase(s) may be responsible for such increased Ser/Thr phosphorylation in vivo, protein kinase C and cAMP-dependent protein kinase A in liver were studied. A 2-fold increase in protein kinase C activity was found in both cytosol and membrane extracts from starved rats as compared to controls, while protein kinase A activity was diminished in the cytosol of starved rats. A parallel increase in protein kinase C was demonstrated by immunoblotting with a polyclonal antibody which recognizes several protein kinase C isoforms. These findings suggest that in starved, insulin-resistant animals, an increase in hepatic protein kinase C activity is associated with increased Ser/Thr phosphorylation which in turn decreases autophosphorylation and function of the insulin receptor kinase.
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PMID:Increased protein kinase C activity is linked to reduced insulin receptor autophosphorylation in liver of starved rats. 235 98

Basic fibroblast growth factor (FGF) has no effect alone on the basal cAMP synthesis in Chinese hamster fibroblasts (CCL39) but it potentiates (by up to 50%) the stimulation of adenylate cyclase by prostaglandin E1, cholera toxin or forskolin. This potentiating effect is not abolished by pretreatment of the cells with pertussis toxin, which indicates that it is not due to the withdrawal of a tonic inhibition of adenylate cyclase by the pertussis toxin-sensitive inhibitory GTP-binding protein (Gi). Therefore, we conclude that FGF enhances the activation of adenylate cyclase by the stimulatory GTP-binding protein (Gs). Although activation of protein kinase C in CCL39 cells results in a similar potentiation of cAMP production, we provide evidence that the effect of FGF is not mediated by protein kinase C, since (1) the potentiating effects of FGF and phorbol esters are additive and (2) FGF effect persists after down-regulation of protein kinase C. A role of FGF-induced rise in cytoplasmic Ca2+ can also be ruled out because the FGF effect is not mimicked by a Ca2+ ionophore and it persists in Ca2(+)-free medium. Since a similar potentiating effect on cAMP production is elicited by epidermal growth factor, a mitogen known to activate a receptor tyrosine kinase, we suggest that the FGF effect on adenylate cyclase might be mediated by the tyrosine kinase activity that is very likely to be associated with FGF receptors.
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PMID:Fibroblast growth factor potentiates receptor- and nonreceptor-mediated stimulation of adenylate cyclase in hamster fibroblasts. 256 14

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