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)

In the accompanying study (Borner, C.B., Guadagno, S. N., and Weinstein, I. B. (1992) J. Biol. Chem. 267, 12892-12899) we found that R6 embryo fibroblasts express four isoforms of PKC, cPKC alpha, nPKC epsilon, nPKC delta, and nPKC zeta whose subcellular distribution, activation, and down-regulation are differentially regulated. Furthermore, we demonstrated that overproduction of an exogenous cPKC beta I isoform in these cells (R6-PKC3) altered the TPA-induced down-regulation of nPKC delta and nPKC epsilon. In this paper we show that transformation of R6 or R6-PKC3 cells with a variety of different oncogenes results in differential alterations in expression of individual PKC isoforms. R6 or R6-PKC3 cells transformed by an activated c-H-ras oncogene displayed a marked increase in the expression of both cPKC alpha and nPKC delta, decreased expression of nPKC epsilon, and no change in the expression of nPKC zeta. These alterations occurred at both the mRNA and protein levels but did not significantly affect the subcellular distribution of any of the four isoforms. Studies using actinomycin D and nuclear run-off assays indicated that the increased expression of cPKC alpha in ras-transformed cells was due to increased de novo transcription rather than increased mRNA stability. Qualitatively similar, but less extensive changes in the expression of the four PKC isoforms were seen in v-fos-transformed R6-PKC3 cells. Decreased expression of nPKC epsilon was also seen in the v-src-transformed R6- and R6-PKC3 lines; however, the cellular level of cPKC beta I appeared to be a limiting factor in mediating the effects of v-src on the increased expression of cPKC alpha and nPKC delta. Interestingly, no major changes in the levels of expression of any of the four PKC isoforms were found when R6 cells were transformed by myc, neu/erb-B2, or mos oncogenes. These results demonstrate that transformation of R6 cells by the oncogenes ras, src, and fos differentially alter the expression of three isoforms of PKC in the same host cell, and they suggest that individual isoforms may play distinct roles in mediating cellular transformation by specific oncogenes.
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PMID:Expression of four protein kinase C isoforms in rat fibroblasts. Differential alterations in ras-, src-, and fos-transformed cells. 161 88

The levels of protein kinase C (PKC) activity, PKC isozymes, as well as the level of endogenous diacylglycerols (DAG) were examined in early emergence mouse skin papillomas and compared to the levels in the epidermis. The papillomas were derived from a two-stage carcinogenesis protocol in which mice were initiated with 7,12-dimethylbenz[a]anthracene (DMBA) and promoted twice weekly for only 12 weeks with 12-O-tetradecanoylphorbol-13-acetate (TPA). As expected, greater than 90% of these early emergence papillomas contained an activated Ha-ras gene with an A----T transversion in the 61st codon. There was a TPA-independent, irreversible decrease in total PKC activity (70%) in the early emergence papillomas compared to that in the epidermis. Immunoblot analysis of epidermis and papillomas taken 4 weeks following the cessation of TPA treatment, a time when PKC catalytic activity has completely recovered to control level in epidermis but not in papillomas, revealed that the levels of PKC-alpha and PKC-beta 2 were dramatically decreased in the cytosol of the papillomas, while the levels of these two isozymes in the particulate fraction were approximately equal to the epidermis. PKC-delta, -epsilon and -zeta immunoreactive proteins were present in both epidermis and papillomas and only minor changes were observed in the papillomas. PKC-delta and PKC-epsilon displayed a particulate fraction localization in both the epidermis and papillomas, while PKC-zeta was found in both subcellular fractions. We were unable to detect PKC-gamma in mouse epidermis or papillomas. Since the level of DAG has been shown to be elevated in some ras-transformed cells, we examined DAG levels in the papillomas, as an increased DAG level could explain the constitutive decreases in the levels of PKC. Measurements of cellular DAG indicated that there was no elevation in the total pool of DAG in the early emergence papillomas. These data demonstrate an irreversible decrease in and alteration of the subcellular distribution of PKC-alpha and beta 2 in DMBA-initiated/TPA-promoted papillomas. These changes are TPA-independent, and occur in the absence of an elevation in the total pool of endogenous DAG. These alterations of PKC isozymes may be important early events in multistage tumorigenesis.
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PMID:Alterations in protein kinase C isozymes alpha and beta 2 in activated Ha-ras containing papillomas in the absence of an increase in diacylglycerol. 163 76

To investigate the role of ras gene activity in cellular transformation by polyomavirus, murine C3H10T1/2 cells were rendered ras deficient by transfection with an antisense ras gene construct. Ras deficiency resulted in a partial suppression of the polyomavirus-induced transformed phenotype. The production of viral middle T antigen and its association with pp60c-src, increased membrane-associated protein kinase C activity, and morphological transformation were unaffected by the downregulation of c-ras gene expression. On the other hand, stimulated proliferation, focus formation on confluent monolayers of normal cells, and colony formation in soft agar were all greatly reduced in cells containing reduced p21ras levels. It is concluded that ras gene activity is needed for full cell transformation by polyomavirus.
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PMID:Cellular ras gene activity is required for full neoplastic transformation by polyomavirus. 165 39

The mechanism(s) by which the c-myc nuclear protein and the membrane-associated ras protein interact to mediate phenotypic changes is unknown. We now find that c-mcy gene expression is associated with alterations in the principal signal transduction pathway through which the ras protein is thought to function. We studied the transcript and protein expression of protein kinase C (PKC) isoforms in a culture line of human small cell lung cancer cells (NCI H209) in which expression of inserted c-myc and Ha-ras genes together, but not alone, causes a transition to a large cell phenotype. In control H209 cells, at the transcript and cell membrane protein levels, PKC-alpha is the dominant PKC species. In this cell line, the expression of an exogenous c-myc gene, but not of a viral Ha-ras gene, causes a 5- to 10-fold increase in the PKC-beta isoform transcript and protein. The insertion of ras into the exogenous myc-expressing 209 cells, in addition to causing phenotypic transition, results in the translocation of the PKC-beta protein from the cytosol to the membrane fraction and a decrease in membrane-associated PKC-alpha. Concomitant with these changes, the increased PKC isoform transcript levels induced by myc alone are completely reversed. These observations suggest that a complex set of PKC transcript and protein alterations, most prominently involving an increased PKC-beta protein level in the cell membrane, a decrease in PKC-alpha protein, and a decrease in all PKC isoform transcripts, may represent a fundamental event(s) for c-myc collaboration with Ha-ras to alter cell phenotype.
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PMID:c-myc gene-induced alterations in protein kinase C expression: a possible mechanism facilitating myc-ras gene complementation. 165 53

T cell stimulation via the TCR complex (TCR/CD3 complex) results in activation of the guanine nucleotide binding proteins encoded by the ras protooncogenes (p21ras). In the present study we show that the activation state of p21ras in T lymphocytes can also be controlled by triggering of the CD2 Ag. The activation state of p21ras is controlled by GTP levels on p21ras. In T cells stimulation of protein kinase C is able to induce an accumulation of "active" p21ras-GTP complexes due to an inhibitory effect of protein kinase C stimulation on the intrinsic GTPase activity of p21ras. The regulatory effect of protein kinase C on p21ras GTPase activity appears to be mediated via regulation of GAP, the GTPase activating protein of p21ras. In the present report, we demonstrate that the TCR/CD3 complex and the CD2 Ag control the accumulation of p21ras-GTP complexes via a regulatory effect on p21ras GTPase activity. The TCR/CD3 complex and CD2 Ag are also able to control the cellular activity of GAP. These data demonstrate that p21ras is part of the signal transduction responses controlled by the CD2 Ag, and reveal that the TCR/CD3 complex and CD2 Ag control the activation state of p21ras via a similar mechanism.
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PMID:CD2 antigen mediated activation of the guanine nucleotide binding proteins p21ras in human T lymphocytes. 167 18

cAMP-dependent protein kinase (PKA) and phospholipid-dependent protein kinase (PKC) play a role in nerve growth factor (NGF)-mediated differentiation. In PC12 cells, NGF causes neurite outgrowth and increases the number of voltage-gated Na+ channels. Neurite outgrowth involves in part activation of PKC. How NGF regulates Na+ channel number is unknown. Using patch-clamp techniques, we find that agents activating PKC, including phorbol esters and a ras oncogene product (p21) that induces neurites, caused little increase in channel number. In contrast, agents increasing intracellular cAMP were as effective as NGF. A specific protein inhibitor of the PKA catalytic subunit blocked increases by NGF or cAMP. Thus, NGF increases Na+ channel number in PC12 cells in part by activating PKA but apparently not PKC.
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PMID:Nerve growth factor acts through cAMP-dependent protein kinase to increase the number of sodium channels in PC12 cells. 169 May 63

The myeloid interleukin-3 (IL-3) dependent cell line, FDC-P1, enters the G0 stage of the cell cycle after IL-3 deprivation for 24 hr. The expression of 13 protooncogenes and immediate-early genes was compared with 4 "control" genes after the addition of either IL-3 or phorbol myristate acetate (PMA) to IL-3-deprived cells. mRNA transcripts encoding c-myc and the T-cell receptor c-gamma gene were induced to high levels only after IL-3 addition, whereas c-fos, fos-B, c-jun, jun-B, Krox-20, and Krox-24 were induced transiently only after PMA addition. The remaining genes (fra-1, p53, jun-D, c-Ha-ras, c-Ki-ras, c-raf, beta-actin, ornithine decarboxylase, and histone 2B) were detected after culture with either IL-3 or PMA. When cells were serum- and IL-3-deprived, c-fos, fos-B, c-jun, jun-B, Krox-20, and Krox-24 were detected after exposure to either serum or PMA. Moreover, culture with cycloheximide and PMA resulted in superinduction of these genes, whereas cycloheximide and IL-3 addition did not. mRNAs encoding these genes had half-lives of 10-20 min after PMA treatment, whereas that of beta-actin was longer (greater than 2 hr), suggesting that short mRNA half-lives contributed to the transient nature of these genes. Although c-fos, fos-B, c-jun, jun-B, Krox-20, and Krox-24 expression can be detected in IL-3-dependent cells after exposure to either PMA or serum, these genes were not detected after IL-3 addition, which allows cell-cycle progression. These results document the existence of IL-3 and PMA-responsive genes and demonstrate that IL-3 and protein kinase C agonists can induce distinct patterns of gene expression.
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PMID:Interleukin-3 and phorbol esters induce different patterns of immediate-early gene expression in an interleukin-3 dependent cell line. 170 18

A set of genes is rapidly inducible when quiescent fibroblasts are stimulated by growth factors or by the activation of temperature-sensitive retroviral protein-tyrosine kinases. Most of these so-called immediate-early genes were cloned by differential cDNA hybridization. DNA sequence analysis identified many of them as putative members of the growth factor or of the transcription factor gene family, suggesting a role in signal transmission during the G0-to-G1 transition. In this study, we identified one of the genes that are rapidly inducible by the retroviral protein-tyrosine kinases v-Src and v-Fps of Rous sarcoma virus and Fujinami sarcoma virus, respectively, as the rhoB gene, a member of the ras gene superfamily whose products are GTP-binding proteins, rhoB is transiently activated at the transcriptional level by v-Fps and by epidermal growth factor. Its labile RNA is inducible in the presence of cycloheximide but not of actinomycin D. rhoB is strongly induced by epidermal growth factor and by platelet-derived growth factor both in subconfluent, serum-starved and in density-arrested Rat-2 fibroblasts. Fetal calf serum is a poor inducer, particularly in density-arrested cells, and phorbol esters do not increase rhoB expression at all. These data suggest that rhoB is inducible by protein-tyrosine kinases through a pathway not involving the activation of protein kinase C. Neither the closely related rhoC and rhoA genes nor the distantly related c-H-ras gene is rapidly inducible by mitogens. Thus, rhoB is the first known member of the small GTP-binding proteins among the immediate-early genes.
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PMID:The ras-related gene rhoB is an immediate-early gene inducible by v-Fps, epidermal growth factor, and platelet-derived growth factor in rat fibroblasts. 171 Jul 70

Expression of the oncogenic form of H-ras p21 in the mouse myogenic cell line, 23A2, blocks myogenesis and inhibits expression of the myogenic regulatory factor gene, MyoD1. Previous studies from a number of laboratories have demonstrated that the activation of ras p21 is associated with changes in phospholipid metabolism that directly, or indirectly, lead to elevated levels of intracellular diacylglycerol and the subsequent activation of protein kinase C (PKC). To assess the importance of PKC activity to the ras-induced inhibition of skeletal myogenesis, we examined the levels of PKC activity associated with the terminal differentiation of wild-type myoblasts and with the differentiation-defective phenotype of 23A2 ras cells. We demonstrate that there is a 50% reduction in PKC activity during normal myogenesis and that PKC activity is required for myoblast fusion, but not for the transcriptional activation of muscle-specific genes. In contrast, we found that the differentiation-defective 23A2 ras cells possess two- to threefold more PKC activity than wild-type myofibers and that reducing the PKC activity in these cultures does not reverse their non-myogenic phenotype. On the other hand, if PKC activity is downregulated in 23A2 cells before the expression of activated ras p21, myogenesis is not inhibited. These results suggest that activated ras p21 relies on a PKC-dependent signal transduction pathway to initiate, but not to sustain, its negative effects on 23A2 skeletal myogenesis and underscore the potential importance of PKC activity to the proper control of skeletal muscle differentiation.
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PMID:Inhibition of myogenesis by the H-ras oncogene: implication of a role for protein kinase C. 171 63

Changes in the expression of several genes play critical roles in cell growth and tumor transformation. A number of proteases are increased in some tumors, and the level of these enzymes correlates with the metastatic potential of several cancer cell lines. Stromelysin, with the widest substrate specificity, can degrade the extracellular matrix conferring metastatic potential to tumor cells. The mechanisms whereby growth factors and oncogenes control the expression of stromelysin are beginning to be characterized. In the study shown here we also identify a region in the stromelysin promoter which is involved in the induction of stromelysin in response to platelet-derived growth factor, phosphatidylcholine-hydrolyzing phospholipase C, and ras oncogene. Our results are consistent with the notion that platelet-derived growth factor/phosphatidylcholine-hydrolyzing phospholipase C induces stromelysin gene expression through a phorbol myristate acetate/protein kinase C-independent mechanism by acting through elements in the stromelysin promoter distinct from the 12-O-tetradecanoylphorbol-13-acetate-responsive element.
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PMID:Protein kinase C-independent expression of stromelysin by platelet-derived growth factor, ras oncogene, and phosphatidylcholine-hydrolyzing phospholipase C. 171 97


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