Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.13 (protein kinase C)
 49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mitogen-activated protein (MAP) kinases are regarded as switch kinases in the phosphorylation cascade initiated by various agonists. We have investigated whether endothelins (ET), which are constrictor and mitogenic isopeptides, can increase MAP kinase activity in rat mesangial cells, using bovine myelin basic protein (MBP) as a substrate for an in vitro kinase assay. Treatment of quiescent mesangial cells with ET-1 rapidly stimulated a kinase activity which phosphorylated exogenous MBP. This stimulation was dose-dependent, with threshold responses at 1 nM-ET-1. Epidermal growth factor and thrombin also activated this kinase in mesangial cells. We also examined the ET signal transduction pathways leading to activation of MBP kinase. Pertussis toxin had no effect on ET-stimulated MBP kinase activity. Stimulation of protein kinase C by phorbol ester increased MBP kinase activity, and down-regulation of PKC partially inhibited ET-stimulated MBP kinase as well as phorbol ester-stimulated MBP kinase activity. Interestingly, genestein, an inhibitor of protein tyrosine kinases, partially inhibited MBP kinase stimulated by ET but not by phorbol esters. These results suggest that ET stimulates MBP kinase activity in rat mesangial cells via at least two pathways: one which is protein kinase C-dependent and a second one that involves a protein tyrosine kinase. Finally, by raising rabbit antibodies against the two forms of MAP kinase, p44mapk and p42mapk, we demonstrated that both isoforms are expressed in mesangial cells. Antibody alpha 1 Cp42 specifically immunoprecipitated p42mapk and allowed us to demonstrate that ET stimulates MBP kinase activity in the p42mapk immunocomplex. In conclusion, we have provided evidence that, in rat mesangial cells, MAP kinases are rapidly activated by ET-1, a regulatory process that involves at least protein kinase C activation and also a contribution of a tyrosine kinase not yet characterized.
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PMID:Endothelin rapidly stimulates mitogen-activated protein kinase activity in rat mesangial cells. 128 Jan 3

Cytochrome P-450scc (P-450scc) catalyzes the cholesterol side-chain cleavage reaction, a rate-limiting enzymatic step for progesterone synthesis in trophoblastic and other steroidogenic cells. Adrenodoxin is the iron/sulfur protein donating electrons to P-450scc during this reaction. We examined the effects of cholera toxin (CT), an activator of adenylate cyclase, and 12-O-tetradecanoylphorbol acetate (TPA), a phorbol ester protein kinase C activator, on the levels of mRNAs encoding P-450scc and adrenodoxin in JEG-3 choriocarcinoma cells. CT induced in a concentration- and time-dependent manner P-450scc and adrenodoxin mRNA levels to 8-fold and 1.5-fold above that of control, respectively. TPA also increased P-450scc and adrenodoxin mRNA levels about 3-fold and 1.5-fold above that of control, respectively. Epidermal growth factor (EGF) was found to weakly induce P-450scc mRNA accumulation with a maximal 20% stimulation above basal levels. The effects of CT and TPA were apparently additive on both mRNAs. The protein synthesis inhibitor cycloheximide diminished basal, CT-, TPA-, and EGF-stimulated P-450scc mRNA accumulation whereas the opposite was observed for the adrenodoxin mRNA. Insulin-like growth factor I (IGF-I) appeared to have no effect on either mRNA. These data indicate that: (1) the accumulation of P-450scc and adrenodoxin mRNAs is mainly controlled by the cyclic adenosine 3',5'-monophosphate (cAMP)-dependent pathway but their stimulation by TPA- and EGF-induced signals may also play a weaker synergistic role; (2) the protein synthesis inhibitor cycloheximide inhibits basal, CT-, TPA- and EGF-stimulated P-450scc mRNA levels while it increases the expression of adrenodoxin mRNA suggesting that in the malignant trophoblasts these two enzyme mRNAs are differentially controlled.
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PMID:Regulation of the cholesterol side-chain cleavage cytochrome P-450 and adrenodoxin mRNAs in cultured choriocarcinoma cells. 131 54

The proliferation rates of gliomas may be modulated by the protein kinase C (PKC) signal transduction system. The present study was undertaken to further examine the role of PKC system in growth regulation of gliomas in vitro by measurement of PKC activity over various phases of tumor growth and by assessing its potential role as a signal transduction system induced by serum mitogens and the known glioma mitogens epidermal growth factor and fibroblast growth factor. All human glioma lines examined, and the rat glioma C6, displayed high PKC activity relative to nonmalignant glial cells, which correlated with their proliferation rates over their respective growth phase. Frozen surgical human malignant glioma specimens also displayed high PKC activity. The relatively selective PKC inhibitor staurosporine (SP) reduced PKC activity and corresponding growth rates in a dose-related manner. Stimulation of PKC with phorbol esters under different concentrations of serum in the growth medium indicated that the high PKC activity, which correlated with their rapid growth rates, is highly susceptible to down-regulation by these agents. Epidermal growth factor and fibroblast growth factor increased both PKC activity and the growth rate of glioma line A172; addition of SP reduced the growth rate to levels observed in SP-treated control tumors, indicating that PKC may be a common signal transduction system induced by these mitogens. These results implicate PKC as an important signal transduction system regulating glioma growth, and offers a potential target for tumor inhibition.
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PMID:Protein kinase C activity correlates with the growth rate of malignant gliomas: Part II. Effects of glioma mitogens and modulators of protein kinase C. 140 58

We have compared and contrasted the abilities of TSH and agents capable of discretely activating the cAMP-dependent protein kinase, protein kinase C, or calcium mobilization to influence the secretion of iodinated compounds from cells prelabeled with iodide and blocked from further organification with methimazole. We found that calcium mobilization induced by A23187, protein kinase C activation induced by 12-O-tetradecanoyl phorbol 13-acetate (TPA) and TSH all stimulated the secretion of iodinated compounds. The effects of TSH were mimicked by forskolin and those of TPA by a synthetic diacylglycerol, sn-1,2-dioctanoylglycerol. The effects of TPA were partially inhibited by staurosporine whereas those of TSH were not. Epidermal growth factor and norepinephrine were without effect on thyroid secretion. The effects of A23187 and TPA were synergistic. The effects of TSH and TPA were not and the increased secretion induced by either agent was partially prevented by the combination. Preincubation of cells with TSH desensitized the cells to further stimulation by TSH but the stimulatory effects of TPA were unaffected. Exposure of cells to medium without calcium also induced loss of iodinated compounds which was partially prevented by TSH or forskolin but not TPA. TSH did not stimulate the rapid production of inositol trisphosphate production. We conclude that the mechanisms by which TSH (through stimulation of cAMP) and stimulators of other intracellular pathways exert their effects on secretion of iodocompounds, differ. Activation of protein kinase C and acute production of inositol trisphosphate do not appear to be involved in the mechanism of action of TSH in stimulating thyroid secretion but calcium mobilization is implicated.
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PMID:Control of thyroid secretion: effects of stimulators of protein kinase C, thyrotropin, and calcium mobilization on secretion of iodinated compounds from sheep thyroid cells. 154 39

In previous studies, the authors have shown that the two forms of cell translocation that occur during corneal endothelial monolayer wound repair can be pharmacologically separated. Epidermal growth factor (EGF) enhanced the breaking of cell-cell contacts and movement of individual cells from the wound edge, while indomethacin, an inhibitor of PGE2 synthesis, promoted cell enlargement and spreading of the confluent monolayer sheet into the wound defect. From these findings, the authors hypothesized that the two forms of cell translocation were stimulated by different but coordinately regulated second messenger systems. The current studies used selected protein kinase C (PKC) stimulators and inhibitors, Rh-phalloidin staining of actin filaments, and immunofluorescent localization of PKC to show that: (1) PKC acts as a mediator of the EGF-induced enhancement of the migratory response; (2) the enhanced migratory response results, at least in part, from short-term EGF stimulation of PKC; (3) PKC is a mediator of the EGF-induced alterations in the actin cytoskeleton; and (4) PKC becomes activated in cells at the wound edge during normal, endogenously stimulated wound repair. The results of these studies provide suggestive evidence that wounding of the corneal endothelial monolayer must produce an endogenous, EGF-like stimulation of PKC activity in cells at the wound edge. One effect of PKC activation that must contribute to stimulation of individual cell migration is the induction of cytoplasmic changes that lead to alterations in actin filament organization.
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PMID:Protein kinase C activation during corneal endothelial wound repair. 158 1

Epidermal growth factor (EGF) inhibits Na transport in the cortical collecting ducts (CCD). To gain insight into the signal transduction of this effect, several potential mechanisms were examined in rabbit CCD perfused in vitro. Pretreatment with pertussis toxin, indomethacin, or the protein kinase C inhibitor H7 did not prevent the acute 34-50% decrease in lumen-to-bath 22Na flux (JNa) on exposure to peritubular EGF, indicating that the inhibition is not mediated by a Gi protein, prostaglandin E2 (PGE2), or protein kinase C. Inhibition of the basolateral Na-H exchanger was also without an effect. Lowering the bath Ca concentration from 1.2 to 0.11 mM did not prevent the inhibition of JNa by EGF (JNa decreased significantly by 38.7 +/- 6.9% and 29.1 +/- 5.3%, respectively); in contrast, reduction of the bath free Ca to 0.005 mM totally abolished the effect of EGF. The response to EGF was also assessed in the setting of chronic stimulation of Na transport; inhibition of JNa by EGF was still observed in CCD from remnant kidneys and in CCD from mineralocorticoid-treated rabbits. The results demonstrate that the inhibition of CCD Na transport by EGF is dependent on peritubular Ca. This suggests that the signal transduction involves Ca influx across the basolateral membrane and that increased cytosolic free Ca may be a common pathway for the counterregulatory control of Na reabsorption by several agonists.
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PMID:Mechanism of sodium transport inhibition by epidermal growth factor in cortical collecting ducts. 165 25

Epidermal growth factor (EGF) induces tissue-type plasminogen activator (t-PA) biosynthesis in HeLa cells. Based on nuclear run-on transcription assays, t-PA biosynthesis is modulated by EGF on the level of gene transcription. The effect of EGF is slow, requiring 4-8 h to induce t-PA gene transcription and up to 24 h to induce t-PA mRNA and antigen secretion. An additive response is observed when cells are treated with both phorbol 12-myristate 13-acetate and EGF, suggesting that the two pathways converge and act independently to implement their respective effects. cAMP has previously been shown to potentiate phorbol 12-myristate 13-acetate-mediated induction of t-PA biosynthesis in HeLa cells and in human endothelial cells. Akin to this observation, cAMP also potentiates the EGF-mediated increase in t-PA mRNA. Maximal levels of t-PA mRNA is seen in the presence of all three agonists. The regulation of t-PA by EGF alone and in the presence of either PMA or cAMP is consistent with a role of t-PA during growth and development, and further indicates a functional interplay between protein kinase C-, tyrosine kinase, - and cAMP-dependent signal transduction pathways during regulation of t-PA gene expression.
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PMID:Regulation of human tissue-type plasminogen activator gene transcription by epidermal growth factor and 3',5'-cyclic adenosine monophosphate. 166 1

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

Activation of phospholipase A2 (PLA2) in response to external stimuli may play a pivotal role in signal-transduction pathways via the generation of important cellular intermediates, including prostaglandins. Epidermal growth factor (EGF) has been shown to modulate prostaglandin production, possibly via direct activation of PLA2 or indirectly via interaction with a PLA2-modifying protein such as lipocortin I. We have investigated these pathways with two CHO cell-lines, one (CHOwt) transfected with the full-length human EGF receptor and the second (CHO 11) with a deletion mutant, delta 990, that has lost the autophosphorylation sites and part of the internalization domain. CHOwt cells responded to EGF with a rapid rise in lysophosphatidylcholine and arachidonic acid release concomitant with an increase in prostaglandin production. However, in the non-internalizing CHO 11 cells no such activation of PLA2 was observed. This was not due to an intrinsic lack of PLA2 in these cells, as PLA2 activation was shown on melittin addition, nor was this difference due to a defect in intracellular pathways, as arachidonic acid was released from both cell types by Ca2+ and protein kinase C modulators. However, only in CHOwt cells were these responses potentiated by concomitant addition of EGF. Thus the cytoplasmic subdomain of the EGF receptor, containing the major sites of autophosphorylation and the internalization domain, seems to be involved in the activation of PLA2 by EGF. In addition, we have shown that phosphorylation of lipocortin I is unlikely to play a role in PLA2 activation. In CHOwt cells and a positive control cell line, A431, activation of PLA2 was complete by 10 min, at which time there was no evidence of lipocortin I phosphorylation.
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PMID:Modulation of phospholipase A2 activity by epidermal growth factor (EGF) in CHO cells transfected with human EGF receptor. Role of receptor cytoplasmic subdomain. 182 22

Vasopressin stimulates lactate production by hepatocytes from fed rats, an effect which has been attributed exclusively to Ca2+ activation of glycogenolysis. We provide evidence here for two further actions of vasopressin which affect lactate formation by rat hepatocytes. In the presence of 50 mM glucose, vasopressin inhibited lactate production by hepatocytes. The inhibition was relieved by the presence of alpha-cyano-4-hydroxycinnamate (alpha-CHC), which blocks mitochondrial pyruvate transport. This suggests that vasopressin stimulates pyruvate utilization in the presence of a high concentration of glucose. Epidermal growth factor (EGF), which also increases lactate formation by hepatocytes, did not similarly decrease lactate accumulation in the presence of high glucose, suggesting no stimulation of lactate and pyruvate utilization by this hormone. In cells depleted of Ca2+, vasopressin also stimulated lactate formation. Although vasopressin did not cause the apparent translocation of protein kinase C between cell spaces, phospholipase C treatment of hepatocytes did duplicate vasopressin stimulation of lactate formation, provided fatty acid oxidation was suppressed by the simultaneous presence of the inhibitor palmixorate. We conclude that three actions of vasopressin affect lactate and pyruvate formation: the calcium-linked activations of glycogenolysis and mitochondrial pyruvate utilization, and a stimulation of glycolysis likely mediated by protein kinase C.
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PMID:Vasopressin stimulates pyruvate utilization through a Ca(2+)-dependent mechanism and lactate formation by a protein kinase C-dependent mechanism in isolated rat hepatocytes. 193 35


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