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)

The proliferation of dog thyrocytes in primary culture is stimulated by three distinct intracellular signaling pathways: (1) the thyrotropin or forskolin-cyclic AMP-mediated cascade which is compatible with the differentiated state of the cell; (2) the protein kinase C pathway activated by diacylglycerol and phorbol esters; and (3) a protein tyrosine kinase system activated by epidermal growth factor. The two latter pathways also induce dedifferentiation. The activation of the three cascades induced the expression of the protooncogenes c-fos and c-myc with dose-response curves similar to those for DNA synthesis. After TPA and EGF, the time courses of stimulation of c-fos and c-myc were the same as those for mitogenically stimulated fibroblasts. However, after the cyclic AMP stimulation, c-myc expression was biphasic with an enhancement at 1 h followed by a down-regulation. A similar inhibition by cyclic AMP was also observed on the increased c-myc expression induced by EGF. This down-regulation is suppressed by cycloheximide, which suggests the involvement of a neosynthesized or a labile protein intermediate. The action of cyclic AMP on c-myc mRNA levels could be related to the opposite requirements of the stimulation of both proliferation and differentiation expression by the cyclic AMP pathway in the differentiated thyrocytes.
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PMID:Regulation of protooncogenes c-fos and c-myc expressions by protein tyrosine kinase, protein kinase C, and cyclic AMP mitogenic pathways in dog primary thyrocytes: a positive and negative control by cyclic AMP on c-myc expression. 216 47

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

Significant advances in our understanding of the regulation of fetal adrenal growth, differentiation, and steroidogenesis have been made in the past several years. In vitro studies employing molecular biological techniques have demonstrated that the placenta and several fetal tissues synthesize growth factors and/or oncogene-related products, which have the capacity to modulate growth and maturation of the fetal adrenal. Moreover, there is evidence that the fetal adrenal itself produces IGF-I and IGF-II and that the mRNAs for these growth factors are responsive to ACTH and perhaps other peptides originating in the fetal pituitary and/or the placenta. Most fascinating are the studies demonstrating that growth factors may also regulate the pattern of steroidogenesis elicited by the fetal adrenal. For example, TGF beta modulates binding, internalization, and degradation of LDL-cholesterol in adult adrenals while IGF-I increases fetal adrenal steroidogenesis by mechanisms that do not involve induction of P-450scc or enhanced metabolism of LDL. These studies, coupled with the observation that activation of protein kinase C by EGF or bFGF can block ACTH and/or other cAMP-induced increases in the activity of P-450(17 alpha), provide new insight into the subcellular mechanisms that underlie the regulation of fetal adrenal function. However, in vivo investigations must be aggressively pursued because the latter provide a major and perhaps exclusive means to elucidate the complex and multiple mechanisms that are apparently operative in utero in the regulation of fetal adrenal development. Moreover, in vivo studies remain the only valid means to delineate whether the factors that have been shown to modulate fetal adrenal function in vitro are indeed operable in vivo. Thus, in vivo investigations have shown that a multifactorial regulation of the fetal adrenal exists in utero in which PRL and perhaps other peptides as well as ACTH selectively stimulate fetal adrenal androgen production. Moreover, in vivo studies have demonstrated that a feedback mechanism operates in utero whereby estrogen produced in the placenta from androgen precursors of fetal adrenal origin feeds back to modulate the responsivity of the fetal adrenal to tropic peptides perhaps by regulating peptide binding to cell membrane receptors and/or other mechanisms. Evidence has also been provided from in vivo studies to support the concept that the placenta via metabolism of maternal cortisol and cortisone regulates fetal pituitary production of ACTH by modulating the extent to which maternal cortisol arrives at the fetus.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Regulation of the primate fetal adrenal cortex. 218 Jun 86

Diploid WB rat liver epithelial cells contain abundant, rapidly internalized epidermal growth factor receptors, and respond pleiotropically to ligand binding. Signal transduction pathways downstream from the EGF receptor involve activation of elements that are both dependent on and independent of protein kinase C activation. Neoplastic transformation of wild-type WB rat liver epithelial cells by exposure to N-methyl-N'-nitro-N-nitrosoguanidine is associated with progressive alterations in the responses of affected cells to binding of EGF to EGF receptors, including heightened cell proliferation and the expression of several other phenotypic properties. Tumorigenic rat liver epithelial cells acquire the ability to express transforming growth factor-alpha (TGF-alpha), and to secrete this growth factor in a regulated and then unregulated manner. TGF-alpha expression, together with the presence of abundant EGF receptors, provides affected cells with an autocrine growth cycle. The ability of transformed WB rat liver epithelial cells to produce tumors cosegregates clonally with TGF-alpha expression and with heightened expression of c-myc, c-Ha-ras and c-Ki-ras proto-oncogenes.
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PMID:Sequential changes in epidermal growth factor receptor/ligand function in cultured rat liver epithelial cells transformed chemically in vitro. 218 76

In canine thyrocytes in primary culture, our previous studies have identified three mitogenic agents and pathways: thyrotropin (TSH) acting through cyclic AMP (cAMP), EGF and its receptor tyrosine protein kinase, and the phorbol esters that stimulate protein kinase C. TSH enhances, while EGF and phorbol esters inhibit, the expression of differentiation. Given that growth and differentiation expression are often considered as mutually exclusive activities of the cells, it was conceivable that the differentiating action of TSH was restricted to noncycling (Go) cells, while the inhibition of the differentiation expression by EGF and phorbol esters only concerned proliferating cells. Therefore, the capacity to express the thyroglobulin (Tg) gene, the most prominent marker of differentiation in thyrocytes, was studied in proliferative cells (with insulin) and in quiescent cells (without insulin). Using cRNA in situ hybridization, we observed that TSH (and, to a lesser extent, insulin and insulin-like growth factor I) restored or maintained the expression of the Tg gene. Without these hormones, the Tg mRNA content became undetectable in most of the cells. EGF and 12-0-tetradecanoyl phorbol-13-acetate (TPA) inhibited the Tg mRNA accumulation induced by TSH (and/or insulin). Most of the cells (up to 90%) responded to both TSH and EGF. Nevertheless, the range of individual response was quite variable. The effects of TSH and EGF on differentiation expression were not dependent on insulin and can therefore be dissociated from their mitogenic effects. Cell cycling did not affect the induction of Tg gene. Indeed, the same cell distribution of Tg mRNA content was observed in quiescent cells stimulated by TSH alone, or in cells approximately 50% of which had performed one mitotic cycle in response to TSH + insulin. Moreover, after proliferation in "dedifferentiating" conditions (EGF + serum + insulin), thyrocytes had acquired a fusiform fibroblast-like morphology, and responded to TSH by regaining a characteristic epithelial shape and high Tg mRNA content. 32 h after the replacement of EGF by TSH, cells in mitosis presented the same distribution of the Tg mRNA content as the rest of the cell population. This implies that cell cycling (at least 27 h, as previously shown) did not affect the induction of the Tg gene which is clearly detectable after a time lag of at least 24 h. The data unequivocally show that the reexpression of differentiation and proliferative activity are separate but fully compatible processes when induced by cAMP in thyrocytes.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Differentiation expression during proliferative activity induced through different pathways: in situ hybridization study of thyroglobulin gene expression in thyroid epithelial cells. 219 63

A sharp decrease in the number of epidermal growth factor receptors (EGF-R) in the rat liver plasma membranes had been found at different stages of diethylnitrosamine-induced carcinogenesis. The complete loss of high-affinity binding sites for EGF did not prevent EGF-dependent autophosphorylation of EGF-R. Hepatocytes from the rat liver tumors in the primary culture had two classes of EGF-R: high and low affinity ones, though their number had been twice less than in the normal hepatocytes. The dynamics of internalization and down-regulation of EGF-R was very similar in the primary culture of transformed and normal hepatocytes. It testifies that there are some factors of microenvironment in the liver during carcinogenesis which cause the loss of EGF-R (down-regulation) and a decrease of their affinity (activation of protein kinase C). A possible autocrine or paracrine nature of these factors is discussed.
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PMID:[Changes in the epidermal growth factor receptors in the liver cells of rats in N-nitrosodiethylamine-induced hepatic carcinogenesis]. 222 52

In previous studies (Housey et al.: Cell 52:343-354, 1988), our laboratory demonstrated that a cell line R6-PKC3 that stably overproduces high levels of the beta 1 isoform of PKC displayed several abnormalities in growth control, and these phenotypic changes were also markedly enhanced when the cells were exposed to TPA. The present studies indicate that these cells also display marked changes in their response to certain growth factors. A striking finding was that several agents when tested alone in serum-free medium, including EGF, PDGF, TPA, teleocidin, and OAG, stimulated DNA synthesis in quiescent R6-PKC3 cells but had a negligible effect in quiescent R6-C1 cells, a vector control cell line with normal levels of PKC. R6-PKC3 cells also show an exaggerated response to very low concentrations of serum, when compared to R6-C1 control cells. These studies provide direct genetic evidence that alterations in cellular levels of PKC can markedly influence the responses of cells to specific growth factors.
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PMID:Growth factor-induced DNA synthesis in cells that overproduce protein kinase C. 224 25

The lung (in particular the bronchial epithelium) is a major site for tumor formation in humans. Environmental factors in conjunction with genetic factors are important determinants in this disease. The acquisition of defects in the control of proliferation and differentiation appears to constitute crucial steps in the transition of a normal to a neoplastic cell. Several factors have been identified that control positively or negatively the proliferation and differentiation of tracheobronchial epithelial cells. These factors include EGF/TGF alpha, TGF beta, insulin/IGFI, KGF, certain cytokines, retinoids, and activators of protein kinase C. Studies with neoplastic cells have identified several protooncogenes and tumor suppressor genes whose gene products are involved in the regulation of cell growth of normal tracheobronchial epithelial cells, and when mutated, lost, or activated, bring about a neoplastic phenotype. Future studies on the precise function of these genes will help to elucidate the mechanisms by which proliferation and differentiation in normal tracheobronchial epithelial cells are regulated and help to understand the molecular changes involved in diseases such as cancer.
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PMID:Positive and negative regulation of proliferation and differentiation in tracheobronchial epithelial cells. 225 74

The growth inhibitory effects of exogenously added retinoic acid (RA) on various cultured human glioma cells was observed to be heterogenous, with an ID50 ranging from 10(-7) M to no response. The protein tyrosine kinase activity of epidermal growth factor receptor (EGF-receptor) appeared to parallel the cell's growth responsiveness to RA. Cells sensitive to RA-induced growth inhibition exhibited a dose-dependent decrease in EGF-receptor activity, whereas RA-resistant cells showed no alterations in EGF-receptor protein tyrosine kinase activity or expression. The modulation of EGF-receptor by RA was further examined with RA-sensitive (LG) and -resistant (NG-1) cell lines. Both cell lines were approximately equal in their ability to bind and internalize epidermal growth factor in the presence or absence of RA. Several independent assays suggested that the inhibition of EGF-receptor activity was independent of protein kinase C modulation as mediated by phorbol myristate acetate. However, alterations in associated glycoconjugates of EGF-receptor were observed among the sensitive cells but not the resistant cells. These results suggest RA-induced growth inhibition in sensitive cells may arise, at least in part, through alterations in EGF-receptor and structure.
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PMID:Inhibition of epidermal growth factor receptor activity by retinoic acid in glioma cells. 230 13

Tumor necrosis factor (TNF) caused an inhibition of 125I-labeled epidermal growth factor [( 125I]EGF) binding to its receptors of human amniotic (WISH) cells at 5 min after addition of TNF, which reached a maximal level (60-70% reduction) after 15-30 min and declined thereafter. TNF also induced a translocation of protein kinase C activity from the cytosol to the membrane, which peaked at 45-60 min after addition of TNF and almost returned to basal level at 120 min. Furthermore, prolonged incubation of WISH cells with 12-O-tetradecanoylphorbol 13 acetate (TPA) diminished the TPA effect on the inhibition of EGF binding to the cells due to the desensitization of protein kinase C; however, TNF still reduced the EGF binding to the cells pretreated with TPA for a long time. These results indicate that although TNF causes the translocation of protein kinase C to the membrane, activation of protein kinase C is not required for TNF to induce a decrease in EGF binding to the cells.
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PMID:Translocation of protein kinase C to membranes induced by TNF does not cause the inhibition of EGF binding to human wish cells. 233 31


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