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)

MCF-7 breast cancer cells stably transfected with protein kinase C-alpha (MCF-7-PKC-alpha cells) show anchorage-independent growth and exhibit increased tumorigenicity in nude mice. Since integrins are involved in tumor growth and metastatic spread, we investigated whether integrin expression is differentially regulated in MCF-7-PKC-alpha cells. Fluorescence-activated cell sorting revealed that alphavbeta3 is highly expressed on MCF-7-PKC-alpha cells, but is undetectable on MCF-7V cells (MCF-7 cells transfected with vector only). In contrast, MCF-7-PKC-alpha cells have reduced expression of alphavbeta5. Blocking experiments with antibodies to alphavbeta3 and alphavbeta5 revealed that these receptors are used by MCF-7-PKC-alpha cells to adhere primarily to vitronectin and osteopontin. Consistent with heterodimer expression, MCF-7-PKC-alpha cells express increased beta3 and decreased beta5 on their surface. Surface expression of alphav on MCF-7-PKC-alpha cells is unchanged. Western blotting, Northern analysis, and nuclear run-on assays indicated that post-translational mechanisms increase the surface expression of beta3 on MCF-7-PKC-alpha cells. In contrast, reduced beta5 transcription diminishes beta5 surface expression on MCF-7-PKC-alpha cells. These results indicate that overexpression of PKC-alpha in MCF-7 cells alters beta5 and beta3 expression by transcriptional and post-translational mechanisms, respectively, resulting in altered heterodimer expression. These findings suggest that the increased metastatic capacity of tumor cells with elevated protein kinase C levels may result, in part, from modulation of integrin expression.
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PMID:Overexpression of protein kinase C-alpha in MCF-7 breast cancer cells results in differential regulation and expression of alphavbeta3 and alphavbeta5. 1037 5

Phosphatidylinositol-3 kinase (PI-3 K) plays a central role in a broad range of biological effects. However, little is known about its role in phorbol ester- or epidermal growth factor (EGF)-induced signal transduction to the transcriptional machinery of the nucleus and in tumor promoter-induced cell transformation. We have used JB6 cells to study the role of PI-3 K in 12-O-tetradecanoylphorbol-13-acetate (TPA)- or EGF-induced AP-1 activation and neoplastic cell transformation. We demonstrated that TPA, EGF and insulin induce PI-3 K activity in JB6 cells. The induced PI-3 K activity was blocked by a dominant negative mutant of PI-3 K, and by wortmannin or LY294002. Blocking of PI-3 K activity by these inhibitors also blocked TPA- or EGF-induced AP-1 activity and cell transformation. Furthermore, we have investigated the role of PKC and its isozymes in the synergistic induction of PI-3 K by TPA and insulin and found that bisindolylmaleimide, a PKC inhibitor, inhibits TPA-induced PI-3 K. Overexpression of a dominant negative PKC epsilon, but not dominant negative PKC alpha, blocks the TPA- or TPA plus insulin-induced PI-3 K activity. Inositol hexaphosphate (InsP6) is one of the most promising chemopreventive agents as demonstrated by Shamsuddin et al. and others. InsP6 profoundly inhibits EGF- or TPA-induced cell transformation and the signal transduction cascade to Erks and AP-1 activation. InsP6 also inhibits TPA- or EGF-induced PI-3 K activity in vivo and in vitro. These results suggest that the anticarcinogenesis action of InsP6 may be through inhibition of PI-3 K and inhibition of the AP-1 pathway. Because InsP6 is a naturally occurring compound with virtually no toxicity, and may be an effective anticarcinogenesis agent in humans, PI-3 K and AP-1 activities may be useful biomarkers for the effectiveness of InsP6 in clinical studies.
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PMID:PI-3 kinase in signal transduction, cell transformation, and as a target for chemoprevention of cancer. 1062 51

Increased activation of specific protein kinase C (PKC) isoforms and increased nonenzymatic glycation of intracellular and extracellular proteins [the accumulation of advanced glycation end products (AGEs)] are major mechanistic pathways implicated in the pathogenesis of diabetic complications. Blocking PKC-beta(II) has been shown to decrease albuminuria in animal models of diabetes. To demonstrate a direct relationship between AGEs and the induction and translocation of PKC-beta(II), studies were carried out in rat neonatal mesangial cells, known to express PKC-beta(II) in association with rapid proliferation in post-natal development. Oxidative stress was studied by using the fluorescent probe dichlorfluorescein diacetate. Translocation of PKC-beta(II) was demonstrated by using immunofluorescence and Western blotting of fractionated mesangial cells. Induction of intracellular oxidative stress, increase in intracellular calcium, and cytosol to membrane PKC-beta(II) translocation (with no change in PKC-alpha) were demonstrated after exposure to AGE-rich proteins. These data support the hypothesis that AGEs cause mesangial oxidative stress and alterations in PKC-beta(II), changes that may ultimately contribute to phenotypic abnormalities associated with diabetic nephropathy.
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PMID:AGEs induce oxidative stress and activate protein kinase C-beta(II) in neonatal mesangial cells. 1075 Dec 30

It has been hypothesized that spinal morphine tolerance results from protein kinase C (PKC) mediated phosphorylation. Chronic lumbar intrathecal (i.t.) infusion of morphine (20 nmol/microl/h) was shown to produce antinociception on day 1 (d1) that disappeared by d5 (tolerance). On d6, a bolus i.t. probe dose of morphine (60 nmol) produced a more profound antinociception in saline-infused rats than in morphine-infused rats. Coinfusion of morphine with a PKC inhibitor, chelerythrine, prevented tolerance to the probe morphine dose. Bolus i.t. chelerythrine or GF109203X (GF), another PKC inhibitor, on d5, but not the inactive homologue of GF Bisindolymaleimide V, also blocked development of tolerance after 24 h. I.t. morphine infusion, but not saline, produced a 2-fold increase in dorsal horn PKC phosphorylating activity and in the expression of PKCalpha/gamma. Bolus chelerythrine on d5 after spinal morphine infusion blocked upon an increase in PKC activity, confirming that at the behaviorally active dose the drug had the intended biochemical effect upon spinal PKC activity. PKC activity and protein expression did not change when assessed 1 h after bolus i.t. morphine in naive rats. Thus, tolerance produced by morphine infusion is dependent upon an increase in local phosphorylating activity by PKC. Blocking the PKC activity prevents expression of the morphine tolerance.
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PMID:Spinal PKC activity and expression: role in tolerance produced by continuous spinal morphine infusion. 1078 12

Using an in vitro co-culture assay we found that a rat medullary thymic epithelial cell (TEC) line (TE-R2.5) induces apoptosis of the BWRT8 thymocyte hybridoma (TH) (CD4(hi)CD8(low) alphabetaTCR(hi)). TH apoptosis induced by this TEC line was predominantly mediated by direct cell-cell contacts and was potentiated by cross-linking of the T cell receptor (TCR) by R73 monoclonal antibody (mAb). Dexamethasone (Dx) also triggered TH apoptosis but inhibited death of these cells induced by TE-R2.5 cells or immobilized R73 mAb. The TEC-induced apoptosis was independent of the LFA-1/ICAM-1 interaction but partly depended on a novel 29 kDa molecule expressed on TE-R2.5 cells. All three types of TH apoptosis were followed by the cleavage of poly-(ADP-ribose)-polymerase and were blocked by a caspase inhibitor Z-Val-Ala-Asp(OMe)-CH(2)F.PKC stimulation by phorbol myristate acetate interfered with the TH apoptosis induced by TE-R2.5 and Dx, but did not modulate the effect of R73 mAb. On the contrary, inhibition of calcineurin with cyclosporine A did not influence the apoptosis induced by TE-R2.5 and Dx, but completely prevented the R73-triggered TH cell death. The TE-R2.5-mediated BWRT8 apoptosis was suppressed by Na-orthovanadate, an inhibitor of protein tyrosine phosphatases (PTP) as well as by genistein, a protein tyrosine kinase (PTK) inhibitor, while both compounds potentiated the effect of Dx. Blocking PTP, but not PTK decreased the proapoptotic effect of R73 mAb. These results, including those using a BWRT8 subclone (BWRT8-MDP.2) which is resistant to TCR-triggered apoptosis, but sensitive to apoptosis stimulated by TE-R2.5 and Dx, indicate that TE-R2.5-induced TH apoptosis in our model is different from apoptosis in other TEC co-culture models, published so far.
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PMID:Comparison of signaling pathways involved in apoptosis of a thymocyte hybridoma triggered by a rat thymic medullary epithelial cell line, dexamethasone or T-cell receptor cross-linking. 1084 42

Changes in expression of the two tight junction-associated proteins, barmotin/7H6 and ZO-1, as well as the adherence junction-associated protein, E-cadherin, were followed during hepatocyte growth factor/scatter factor (HGF/SC)-induced migration process of MDCK cells. Modulation of the HGF/SF-induced migration process by staurosporine, an inhibitor of protein kinase C (PKC), was also examined. Cell migration induced by HGF/SF consisted of two distinct phases, initial cell spreading between 2 and 9 h after the start of treatment, and the scattering phase which started approximately 12 h after treatment. Both ZO-1 and E-cadherin were expressed at the cell-cell border of adherent cells in the scattering phase, whereas barmotin/7H6, a barrier function-related tight junction protein, was not seen during the early spreading phase. Confluent cultures of MDCK cells, which did not spread after HGF/SF treatment, were positive for barmotin/7H6 expression at cell-cell borders. Blocking PKC activation during HGF/SF treatment with staurosporine inhibited cell spreading, and the cells retained barmotin/7H6 expression until at 6 h after HGF/SF treatment. The results indicate that disappearance of the tight junction protein, barmotin/7H6, is closely associated with cell spreading, with both barmotin/7H6 expression and cell spreading seemingly being regulated by PKC-mediated signaling.
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PMID:HGF/SF-induced spreading of MDCK cells correlates with disappearance of barmotin/7H6, a tight junction-associated protein, from the cell membrane. 1087 91

Interleukin (IL-) 6 is closely related to gastrointestinal diseases. The question of whether gastric epithelial cell contributes to IL-6 production remains undefined. We aim to evaluate the regulatory pathway of IL-6 expression in gastric epithelial cells, by using different inflammatory cytokines, endotoxin, or protein kinase modulators. IL-6 was measured by ELISA. Phorbol-12-myristate-13-acetate (PMA), calcium ionophore A23187, TNF-alpha, IL-1beta, oncostatin M (OSM) but not lipopolysaccharide stimulated IL-6 production from gastric epithelial cell line MKN-28. Blocking protein tyrosine kinase (PTK) activation by herbimycin A or genistein, or blocking NF-kappaB activation by pyrrolidinedithiocarbamate, reduced the IL-6 expression induced by TNF-alpha, IL-1beta and OSM. Dexamethasone mimicked this effect. Protein kinase (PK) C inhibitor only reduced the PMA and OSM induced IL-6 production. Both inhibitors and activators for PKA and G-protein as well as IL-10 had no effects on IL-6 expression. These results indicate that inflammatory cytokines are crucial for IL-6 regulation in gastric epithelial cells. The IL-6 signal pathway is mediated through PTK, NF-kappaB, and also involve PKC, intracellular calcium and sensitive to dexamethasone, but is not related to PKA, G-protein and IL-10.
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PMID:Regulation of interleukin 6 production in a human gastric epithelial cell line MKN-28. 1088 Feb 63

Activation of alpha1B-adrenergic receptors ((alpha1B)AR) by phenylephrine (PE) induces scattering of HepG2 cells stably transfected with the (alpha1B)AR (TFG2 cells). Scattering was also observed after stimulation of TFG2 cells with phorbol myristate acetate (PMA) but not with hepatocyte growth factor/scatter factor, epidermal growth factor, or insulin. PMA but not phenylephrine rapidly activated PKCalpha in TFG2 cells, and the highly selective PKC inhibitor bisindolylmaleimide (GFX) completely abolished PMA-induced but not PE-induced scattering. PE rapidly activated p44/42 mitogen-activated protein kinase (MAPK), p38 MAPK, c-Jun N-terminal kinase (JNK), and AP1 (c-fos/c-jun). Selective blockade of p42/44 MAPK activity by PD98059 or by transfection of a MEK1 dominant negative adenovirus significantly inhibited the PE-induced scattering of TFG2 cells. Selective inhibition of p38 MAPK by SB203850 or SB202190 also blocked PE-induced scattering, whereas treatment of TFG2 cells with the PI3 kinase inhibitors LY294002 or wortmannin did not inhibit PE-induced scattering. Blocking JNK activation with a dominant negative mutant of JNK or blocking AP1 activation with a dominant negative mutant of c-jun (TAM67) significantly inhibited PE-induced cell scattering. These data indicate that PE-induced scattering of TFG2 cells is mediated by complex mechanisms, including activation of p42/44 MAPK, p38 MAPK, and JNK. Cell spreading has been reported to play important roles in wound repair, tumor invasion, and metastasis. Therefore, catecholamines acting via the (alpha1)AR may modulate these physiological and pathological processes.
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PMID:Activation of mitogen-activated protein kinases is required for alpha1-adrenergic agonist-induced cell scattering in transfected HepG2 cells. 1091 93

In L6 muscle cells expressing wild-type human insulin receptors (L6hIR), insulin induced protein kinase Calpha (PKCalpha) and beta activities. The expression of kinase-deficient IR mutants abolished insulin stimulation of these PKC isoforms, indicating that receptor kinase is necessary for PKC activation by insulin. In L6hIR cells, inhibition of insulin receptor substrate 1 (IRS-1) expression caused a 90% decrease in insulin-induced PKCalpha and -beta activation and blocked insulin stimulation of mitogen-activated protein kinase (MAPK) and DNA synthesis. Blocking PKCbeta with either antisense oligonucleotide or the specific inhibitor LY379196 decreased the effects of insulin on MAPK activity and DNA synthesis by >80% but did not affect epidermal growth factor (EGF)- and serum-stimulated mitogenesis. In contrast, blocking c-Ras with lovastatin or the use of the L61,S186 dominant negative Ras mutant inhibited insulin-stimulated MAPK activity and DNA synthesis by only about 30% but completely blocked the effect of EGF. PKCbeta block did not affect Ras activity but almost completely inhibited insulin-induced Raf kinase activation and coprecipitation with PKCbeta. Finally, blocking PKCalpha expression by antisense oligonucleotide constitutively increased MAPK activity and DNA synthesis, with little effect on their insulin sensitivity. We make the following conclusions. (i) The tyrosine kinase activity of the IR is necessary for insulin activation of PKCalpha and -beta. (ii) IRS-1 phosphorylation is necessary for insulin activation of these PKCs in the L6 cells. (iii) In these cells, PKCbeta plays a unique Ras-independent role in mediating insulin but not EGF or other growth factor mitogenic signals.
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PMID:Insulin-activated protein kinase Cbeta bypasses Ras and stimulates mitogen-activated protein kinase activity and cell proliferation in muscle cells. 1093 9

Dynamin I and at least five other nerve terminal proteins, amphiphysins I and II, synaptojanin, epsin and eps15 (collectively called dephosphins), are coordinately dephosphorylated by calcineurin during endocytosis of synaptic vesicles. Here we have identified a new dephosphin, the essential endocytic protein AP180. Blocking dephosphorylation of the dephosphins is known to inhibit endocytosis, but the role of phosphorylation has not been determined. We show that the protein kinase C (PKC) antagonists Ro 31-8220 and Go 7874 block the rephosphorylation of dynamin I and synaptojanin that occurs during recovery from an initial depolarizing stimulus (S1). The rephosphorylation of AP180 and amphiphysins 1 and 2, however, were unaffected by Ro 31-8220. Although these dephosphins share a single phosphatase, different protein kinases phosphorylated them after nerve terminal stimulation. The inhibitors were used to selectively examine the role of dynamin I and/or synaptojanin phosphorylation in endocytosis. Ro 31-8220 and Go 7874 did not block the initial S1 cycle of endocytosis, but strongly inhibited endocytosis following a second stimulus (S2). Therefore, phosphorylation of a subset of dephosphins, which includes dynamin I and synaptojanin, is required for the next round of stimulated synaptic vesicle retrieval.
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PMID:Protein phosphorylation is required for endocytosis in nerve terminals: potential role for the dephosphins dynamin I and synaptojanin, but not AP180 or amphiphysin. 1114 83


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