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)

We have assessed five signal transduction pathways to determine the role each might play in the malignant transformation of mammary epithelium initiated by neu, heregulin/NDF, TGFalpha, v-Ha-ras and c-myc in transgenic mice. The study involves a molecular and pharmacologic assessment of Erk/MAP kinase, Jnk/SAP kinase, PI 3-kinase, protein kinase C, and the Src-related kinases Lck and Fyn. Our results indicate that oncogenes capable of transforming mammary gland epithelium activate and require specific signal transduction pathways. For example, mammary tumors initiated by neu, v-Ha-ras and c-myc have high levels of active Erk/MAP kinase and their anchorage independent growth is strongly inhibited by PD098059, an inhibitor of Mek/ MAP kinase kinase. By contrast, Erk/MAP kinase activity is weak in tumors initiated by TFGalpha and heregulin/NDF and the corresponding cell lines are not growth inhibited by PD098059. Similarly, PI 3-kinase is strongly activated in neu, TGFalpha and heregulin/NDF initiated tumor cell lines, but not in c-myc or v-Ha-ras initiated tumor cell lines. The anchorage independent growth of all these tumor cell lines are, however, inhibited by the specific PI 3-kinase inhibitor LY294001. Further illustrating this oncogene-based specificity, PP1, a specific inhibitor of the Src-like kinases, Lck and Fyn, blocks anchorage-independent cell growth only in the TGFalpha initiated mammary tumor cell line. Taken together with additional observations, we conclude that certain oncogenes reliably require the recruitment/activation of specific signal transduction pathways. Such specific relationships between the initiating oncogene and a required pathway may reflect a direct activating effect or the parallel activation of a pathway that is a necessary oncogenic collaborator for transformation in the mammary gland. The work points to a molecular basis for targeting therapy when an initiating oncogene can be implicated; for example, because of amplification, increased expression, genetic alteration, or heritable characteristics.
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PMID:Signal transduction pathways activated and required for mammary carcinogenesis in response to specific oncogenes. 948 37

The Wcs120 gene encodes a highly abundant protein which appears to play an important role during cold acclimation of wheat. To understand the regulatory mechanism controlling its expression at low temperature, the promoter region has been characterized. Electrophoretic mobility shift assays using short promoter fragments revealed the presence in nuclear extracts from non-acclimated (NA) plants of multiple DNA-binding proteins which interact with several elements. In contrast, no DNA-binding activity was observed in the nuclear extracts from cold-acclimated (CA) plants. In vitro dephosphorylation of these CA nuclear extracts with alkaline phosphatase restored the binding activity. Moreover, okadaic acid (a potent phosphatase inhibitor) markedly stimulated the in vivo accumulation of the WCS120 family of proteins. This suggests that protein phosphatases PP1 and/or PP2A negatively regulate the expression of the Wcs120 gene. In addition, both Ca(2+)-dependent and Ca(2+)-independent kinase activities were found to be significantly higher in the CA nuclear extracts. Western analysis using antibodies directed against protein kinase C (PKC) isoforms showed that a PKCgamma homolog (84 kDa) is selectively translocated into the nucleus in response to low temperature. Taken together, our results suggest that, in vivo, the expression of the Wcs120 gene may be regulated by nuclear factors whose binding activity is modulated by a phosphorylation/dephosphorylation mechanism.
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PMID:Low temperature-stimulated phosphorylation regulates the binding of nuclear factors to the promoter of Wcs120, a cold-specific gene in wheat. 949 Oct 74

Calcium-tolerant rabbit cardiomyocytes were isolated using retrograde aortic perfusion with a nominally calcium-free, collagenase buffer. In vitro ischemic preconditioning was induced by a 10-min episode of ischemic pelleting, followed by a 15-min post-incubation and a prolonged period of ischemic pelleting. Injury was assessed by determination of cell contracture and trypan blue permeability following hypotonic swelling and correlated with metabolic assays of lactate and adenine nucleotides. The protein phosphatase PP1/2A inhibitor calyculin A and PP2A-selective fostriecin protected isolated rabbit cardiomyocytes from lethal injury after a 10-min pre-incubation and when added late into ischemic pellets after a delay of 75 min. At the time of late drug addition, cells were severely ATP-depleted and in rigor contracture. Protection with Calyculin A from 1 nM to 1 microM was dose-related. Cells pre-incubated with 10 nM to 10 microM fostriecin 10 min prior to ischemic pelleting were protected with an EC50 approximating 71 nM, implying protection at a PP2A-selective dose. The selective protein kinase C inhibitor, calphostin C, blocked ischemic preconditioning protection but not protection from 1 microM calyculin A. Protection of severely ischemic cardiomyocytes following protein phosphatase inhibition appears not to require PKC activity or ATP conservation. Pre-incubation of cells with calyculin A induced high levels of phosphorylation in p38 mitogen activated protein kinase (MAPK), as compared to the ischemia-induced phosphorylation observed in the untreated group only at 30 min of ischemia, providing evidence of protein phosphatase activity in cardiomyocytes. Pharmacological protection in late ischemia has been demonstrated, but the mechanism of protection is undetermined.
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PMID:Protein phosphatase inhibitors calyculin A and fostriecin protect rabbit cardiomyocytes in late ischemia. 950 Aug 65

T cells expressing the appropriate T-cell receptor Vbeta chain proliferate in response to Staphylococcus enterotoxin A (SEA) pulsed antigen-presenting cells (APC), whereas other T cells do not (SEA "non-responders"). Activated human T cells express MHC class II molecules that are high affinity receptors for SEA. Here we show that, in the absence of APC, SEA induces a profound inhibition of IL-15-driven proliferation in MHC class II+, human SEA-"responder" T-cell lines. In contrast, proliferation induced by phorbol esther (PMA) was enhanced by SEA. The inhibitory effect on cytokine-mediated mitogenesis correlates with an inhibition of IL-2Rbeta expression and ligand-induced tyrosine phosphorylation of IL-2R. Cyclosporin A (CyA), an inhibitor of the protein phosphatase (PP2B) calcineurin, strongly inhibits the SEA-induced modulations of cytokine receptor expression. Moreover, CyA inhibits both the anti-mitogenic effect of SEA on cytokine-induced proliferation and the pro-mitogenic effect of PMA. In contrast, inhibitors of PP1, PP2A, protein kinase C (PKC), phosphatidyl-inositol-3-kinase (PI-3K) and mammalian target of rapamycin (mTOR) are unable to inhibit the effects of SEA. In a SEA "non-responder" T-cell clone obtained from the affected skin of a patient with psoriasis vulgaris, SEA does not inhibit IL-2Rbeta expression and IL-15-driven proliferation. On the contrary, SEA enhances IL-15- and IL-2-induced proliferation via a CyA-sensitive pathway in this T-cell clone. In conclusion, the present data show that (i) SEA selectively inhibits IL-15- (but not PMA-) mediated proliferation in SEA "responder" T cells, (ii) SEA enhances cytokine-driven growth in psoriasis T cells with a "non-responder" phenotype, and (iii) crosstalk between SEA receptors and the IL-15R (and IL-2R) pathway is mediated via a PP2B-dependent and PP1/PP2A-, PKC-, PI-3 kinase- and mTOR-independent pathway in human T-cell lines.
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PMID:Staphylococcus enterotoxin A modulates interleukin 15-induced signaling and mitogenesis in human T cells. 951 Mar 72

Using a guinea pig gastric longitudinal smooth muscle preparation, we have compared the contractile signaling pathways triggered by the thrombin receptor-activating peptide, TFLLR-NH2 (TF) and by epidermal growth factor-urogastrone (EGF). In addition to inhibitors of tyrosine kinase [tyrphostin 47/AG213, genistein and the src-selective inhibitor CP118,556/PP1], cyclooxygenase (indomethacin, INDO) and diacylglycerol lipase (U57, 908), we also used the signal pathway probe inhibitors of mitogen-activated protein-kinase-kinase (MEK:PD98059), phosphatidylinositol 3'-kinase [PI3K: Wortmannin (WM) and LY294002], protein kinase C [PKC: GF109203X (GF)], and of the EGF-receptor kinase (PD153035). We found that in addition to the inhibition of both TF and EGF-stimulated contractions by the inhibitors of tyrosine kinase, cyclooxygenase and diacylglycerol lipase, the actions of TF and EGF were also attenuated by PD98059, WM/LY294002 and GF. However, PD153035 blocked only EGF-triggered contractions. The contractile actions of both TF and EGF were dependent on extracellular calcium. In contrast, the contractile action of arachidonic acid, via a presumed cyclooxygenase product that mediated the contractions caused by both TF and EGF, was not blocked by any of the signal pathway probe inhibitors. The contractile actions of both TF and EGF were accompanied by increases in tissue phosphotyrosyl proteins and an increase in tissue c-src kinase activity. We conclude that protease-activated receptor no. 1- (thrombin receptor) mediated contractions in the logitudial muscle, like EGF receptor-activated responses, require the influx of extracellular calcium and use parallel signal pathways upstream of the cyclooxygenase step, involving MEK, PI3K, kinase C and possibly cellular src. The TF-induced response did not involve trans-activation of the EGF receptor kinase; but the converse (i.e., trans-activation of protease-activated receptor no. 1 (thrombin receptor) by the EGF receptor kinase) could not be ruled out.
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PMID:Parallel contractile signal transduction pathways activated by receptors for thrombin and epidermal growth factor-urogastrone in guinea pig gastric smooth muscle: blockade by inhibitors of mitogen-activated protein kinase-kinase and phosphatidyl inositol 3'-kinase. 953 28

Fibronectin receptor integrin-mediated cell adhesion triggers intracellular signaling events such as the activation of the Ras/mitogen-activated protein (MAP) kinase cascade. In this study, we show that the nonreceptor protein-tyrosine kinases (PTKs) c-Src and focal adhesion kinase (FAK) can be independently activated after fibronectin (FN) stimulation and that their combined activity promotes signaling to extracellular signal-regulated kinase 2 (ERK2)/MAP kinase through multiple pathways upstream of Ras. FN stimulation of NIH 3T3 fibroblasts promotes c-Src and FAK association in the Triton-insoluble cell fraction, and the time course of FN-stimulated ERK2 activation paralleled that of Grb2 binding to FAK at Tyr-925 and Grb2 binding to Shc. Cytochalasin D treatment of fibroblasts inhibited FN-induced FAK in vitro kinase activity and signaling to ERK2, but it only partially inhibited c-Src activation. Treatment of fibroblasts with protein kinase C inhibitors or with the PTK inhibitor herbimycin A or PP1 resulted in reduced Src PTK activity, no Grb2 binding to FAK, and lowered levels of ERK2 activation. FN-stimulated FAK PTK activity was not significantly affected by herbimycin A treatment and, under these conditions, FAK autophosphorylation promoted Shc binding to FAK. In vitro, FAK directly phosphorylated Shc Tyr-317 to promote Grb2 binding, and in vivo Grb2 binding to Shc was observed in herbimycin A-treated fibroblasts after FN stimulation. Interestingly, c-Src in vitro phosphorylation of Shc promoted Grb2 binding to both wild-type and Phe-317 Shc. In vivo, Phe-317 Shc was tyrosine phosphorylated after FN stimulation of human 293T cells and its expression did not inhibit signaling to ERK2. Surprisingly, expression of Phe-925 FAK with Phe-317 Shc also did not block signaling to ERK2, whereas FN-stimulated signaling to ERK2 was inhibited by coexpression of an SH3 domain-inactivated mutant of Grb2. Our studies show that FN receptor integrin signaling upstream of Ras and ERK2 does not follow a linear pathway but that, instead, multiple Grb2-mediated interactions with Shc, FAK, and perhaps other yet-to-be-determined phosphorylated targets represent parallel signaling pathways that cooperate to promote maximal ERK2 activation.
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PMID:Multiple Grb2-mediated integrin-stimulated signaling pathways to ERK2/mitogen-activated protein kinase: summation of both c-Src- and focal adhesion kinase-initiated tyrosine phosphorylation events. 956 77

Multidrug resistance is one of the major obstacles in cancer chemotherapy. In tumor cells, overexpression of the transmembrane P-glycoprotein 170 (P-gp) is associated with the multidrug resistance phenotype and serves as a drug efflux pump. The activation of P-gp has been suggested to occur at the post-translational level. Protein kinase C mediated phosphorylation may be associated with the drug effux mechanism but the overall phosphorylation pathway has not been completely defined. we report the novel finding of an increase in phosphatase 1B (a tyrosine phosphatase) and a decrease in PP1 and PP2A (serine/threonine phosphatases) expression and activity in our series of early (R65) and late (R500) stage adriamycin resistant MCF-7 cells. In addition, we show a decrease in protein kinase A (PKA) activity and an increase in protein kinase C (PKC) in our drug resistant cells. Analyses of PKC isoforms alpha through epsilon revealed that PKCbeta was not expressed and that all other isoforms increased with increasing resistance, except PKCgamma which was detected only in R65 cells. Our findings suggest that in drug resistant cells, there is a pattern consistant with the maintenance of serine and threonine residues in a phosphorylated state.
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PMID:Differential expression and activity of phosphatases and protein kinases in adriamycin sensitive and resistant human breast cancer MCF-7 cells. 962 6

Prior studies demonstrated that rat macrophages express CD8, which differs from T lymphocyte CD8 within the ligand binding domain. We investigated whether stimulation of macrophage CD8 could induce mediator release and regulate host defense. Cross-linking either CD8alpha (OX8, 5 microg/ml) or CD8beta (341, 10 microg/ml) stimulated nitric oxide (NO) production, which correlated with an up-regulation of inducible NO synthase protein. Cell signaling inhibitors were used to elucidate the pathways of CD8alpha and CD8beta stimulation. Genistein (broad spectrum protein tyrosine kinase inhibitor, 10 microg/ml), PP1 (src family kinase inhibitor, 5 microg/ml), polymyxin B (protein kinase C (PKC) inhibitor, 100 microg/ml), and Ro 31-8220 (PKC inhibitor, 1 microM) significantly inhibited anti-CD8alpha- and anti-CD8beta-stimulated NO production and inducible NO synthase up-regulation, suggesting that tyrosine kinase(s) (src family) and PKC are involved in CD8 signaling. In addition, cross-linking CD8alpha stimulated NO-dependent macrophage killing of the parasite Leishmania major. For the first time, this work demonstrates that the beta-chain of macrophage CD8, in addition to the alpha-chain, can regulate mediator release. These results further illustrate the importance of this molecule and support our previous data demonstrating differences between macrophage and T lymphocyte CD8. Additional studies on the signaling mechanisms and possible ligand(s) for macrophage CD8 will lead to a greater understanding of inflammation and host defense.
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PMID:Mechanisms of macrophage stimulation through CD8: macrophage CD8alpha and CD8beta induce nitric oxide production and associated killing of the parasite Leishmania major. 963 15

p130Cas is a signaling molecule that was initially found to be tyrosine-phosphorylated in v-Crk and v-Src transformed cells. We characterized the regulation of p130Cas tyrosine phosphorylation in vascular smooth muscle cells by angiotensin II (Ang II). This ligand induced a transient increase in p130Cas tyrosine phosphorylation, which was sensitive to the actin polymerization inhibitor cytochalasin D and to the intracellular Ca2+ chelator BAPTA-AM but not the Ca2+ channel blocker verapamil. The Ang II-induced tyrosine phosphorylation of p130Cas was also dependent on an active Src family tyrosine kinase, since it could be blocked by the Src kinase inhibitors geldanamycin and PP1. Ang II treatment resulted in the ability of p130Cas to bind at least 11 different phosphate-containing proteins. Analysis of these proteins revealed that protein kinase Calpha and the cell adhesion signaling molecule pp120 formed temporal associations with p130Cas in response to Ang II. c-Src was found to associate with p130Cas in a manner that was independent of Ang II treatment. Inhibition of protein kinase C by either calphostin C or phorbol 12-myristate 13-acetate downregulation inhibited the Ang II-induced tyrosine phosphorylation of p130Cas. These results are the first to demonstrate that the tyrosine phosphorylation of p130Cas by Ang II is transduced by the Src, intracellular Ca2+, protein kinase C signaling pathway.
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PMID:Phosphorylation of p130Cas by angiotensin II is dependent on c-Src, intracellular Ca2+, and protein kinase C. 964 33

The sensitivity of PKC alpha to two protein phosphatases (PP1 and PP2A) has been studied. The results show that both phosphatases reversibly inhibit PKC alpha activity suggesting an effect at PKC autophosphorylation sites and not at transphosphorylation sites. Moreover, PP1 has been found at low concentration to activate PKC alpha implying the existence of an inhibitory phosphorylation site. Further, PKC alpha has been shown to phosphorylate PP2A at its regulatory subunit B.
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PMID:Regulation of recombinant PKC alpha activity by protein phosphatase 1 and protein phosphatase 2A. 967 27


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