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)

The effect of mutated c-Ha-ras expression on Ca2+ and phospholipid-dependent protein kinase C (PKC) activity during the process of transformation was analysed using an inducible metallothionein-ras hybrid oncogene system. A close correlation was found between the timing of ras expression and the loss of PKC enzymatic activity measured in a cell-free system. Examination of the subcellular distribution of the enzyme in inducible and constitutive ras-transformants revealed that expression of ras was associated with an apparent translocation of PKC to the plasma membrane concomitant with down-regulation of PKC enzymatic activity in particulate as well as cytosolic fractions. Quantitation of PKC protein utilizing a PKC-specific antiserum showed that ras expression was associated with a decrease in the total amount of PKC protein present in the cell. We conclude that transformation by c-Ha-ras is accompanied by down-regulation of PKC activity and that the basis of this effect may, to a large extent, lie in the down-regulation of the amount of PKC protein.
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PMID:Expression of ras oncogene leads to down-regulation of protein kinase C. 219 Sep 39

We have found that the thyroid hormone 3,5',3'-triiodo-L-thyronine stimulates the transformation of Rat 6 fibroblasts when these cells are transfected with an activated human c-Ha-ras oncogene (T24). 3,5',3'-Triiodo-L-thyronine did not further augment the stimulation of oncogene-induced transformation obtained with a phorbol ester tumor promoter (12-O-tetradecanoylphorbol-13-acetate) or a factor from fetal calf serum. On the other hand, tamoxifen, an antiestrogen that also inhibits protein kinase C, markedly inhibited Ha-ras-induced cell transformation in the presence of 12-O-tetradecanoylphorbol-13-acetate or fetal calf serum. Time course studies and Southern blot analyses of DNAs isolated from transformed foci provided evidence that 3,5',3'-triiodo-L-thyronine and tamoxifen do not exert their effects simply by enhancing or inhibiting integration of the transfected oncogene into cellular DNA. These findings indicate that hormonal factors can modulate the ability of an activated Ha-ras oncogene to transform cells. They may be relevant to the process of multistage carcinogenesis in vivo.
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PMID:Effects of triiodothyronine and tamoxifen on cell transformation induced by an activated c-Ha-ras oncogene. 264 66

We have previously reported that the potent tumor-promoting agent 12-O-tetradecanoylphorbol-13-acetate (TPA) and a factor from fetal calf serum (FCS) markedly enhance the transformation of mouse C3H 10T1/2 and Rat 6 fibroblasts, when added to cultures following transfection with plasmid pT24 DNA that contains an activated c-Ha-ras oncogene. In the present study, we examined possible enhancing or inhibiting effects of various chemicals on the transformation of Rat 6 fibroblasts by T24 DNA when tested in the presence of calf serum, calf serum plus TPA or FCS. We found that, like TPA, the chemicals mezerein, 1-oleoyl-2-acetylglycerol, and phospholipase C increased the yield of T24-induced foci, thus further implicating protein kinase C as a critical constituent in this process. Low concentrations (10(-6)-10(-7)M) of retinoic acid (both trans and 13-cis) also stimulated cell transformation. Several compounds inhibited T24-induced transformation. These included nontoxic concentrations of the calcium ionophore A23187, indomethacin, and epsilon-amino-n-caproic acid. Compounds that failed to exert a significant reproducible effect included vasopressin, vitamin D3, selenium, antipain, Bowman-Birk inhibitor, vitamin B12, epidermal growth factor, platelet-derived growth factor, insulin, and transferrin. These findings suggest that this simple in vitro system might be useful for detecting enhancers and inhibitors of ras oncogene-induced cell transformation and also elucidating their mechanisms of action.
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PMID:Effects of various chemical agents on the transformation of rat fibroblasts by an activated c-Ha-ras oncogene. 266 19

The ras oncogenes are implicated in the onset of some human tumours, and in cellular proliferation and terminal differentiation. The ras proteins are plasma membrane bound transducers of signals between the outside of the cell and unknown targets in the cell. Identifying these targets and understanding how they are regulated will have a major impact on our understanding of the molecular basis of transformation. We have already shown that c-Ha-ras and the tumor promoter TPA (12-o-tetradecanoyl phorbol-13-acetate) can activate a transcriptional enhancer. We now report the identification of a short sequence in the polyoma virus (Py) enhancer which mediates Ha-ras activation, and show that this sequence (ras responsive element, RRE) also mediates activation by TPA and serum. This responsive element is a specific binding-site for the mouse transcription factor PEA1 (ref. 4 and below) and for the jun oncogene (ref. 5 and M. Karin, personal communication). These results are in keeping with a role for ras protein in signal transduction from outside the cell to a transcription factor in the nucleus, through protein kinase C. The striking similarity between RRE and DNA sequences present in the promoter regions of a number of transformation-related genes suggests that deregulated activation of RRE is a critical event in transformation.
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PMID:A Harvey-ras responsive transcription element is also responsive to a tumour-promoter and to serum. 283 62

The c-Ha-ras oncogene has been implicated as a causative agent in the development of tumors in humans as well as mice. The molecular nature of the ras-induced tumorigenic process remains unclear, however. To address this question directly we have constructed a cell line which carries a zinc-inducible metallothionein-ras hybrid oncogene, transformant 212. Upon exposure to zinc for 24-48 hr, 212 cells assume a highly transformed morphology, concomitant with the induction of ras-expression. Natural killer cells constitute a subpopulation of lymphoid effector cells which have for a long time been hypothesized to be involved in the earliest stages of antitumor surveillance. Central to this hypothesis is the prediction that NK sensitivity arises during cellular transformation. By carrying out cytotoxicity assays against the 212 transformant, we showed that, indeed, increased sensitivity to NK-mediated lysis correlated with expression of the ras oncogene, which is consistent with the above hypothesis. We then addressed the question of the biochemical mechanism of ras-induced transformation. Owing to their similarity to G proteins, regulatory elements interposed between cell-surface receptors and their effector enzymes, it has been postulated that p21, the ras oncogene protein, mediates its transforming effects by constitutive activation of proliferative signal transduction pathways. We studied the effect of ras expression on the regulation of adenylate cyclase (A.C.), key enzyme of one such major pathway. We found that ras expression correlated with a dampening of responsiveness of A.C. to several stimuli, including hormones such as isoproterenol and other agents such as GMP-PNP, forskolin and fluoride-ion. Accumulation of cAMP as measured by RIA in intact cells, as basal or in response to stimulation of A.C. activity with forskolin, was also decreased (approximately 10-fold) with ras expression. Because the regulation of calcium, another important second messenger is dependent, in part, upon cAMP and GTP-binding proteins, we investigated the possible influence of ras expression on the intracellular concentration of calcium. Steady-state intracellular free Ca2+ concentration, as measured by fluorimetry, was indeed increased by approximately 50-125% in association with ras expression. Finally, we studied the possible influence of p21ras on protein kinase C (PKC), which is a key enzyme in the important signal transduction pathway of phosphatidylinositol lipid turnover. We assessed PKC activity directly, in a cell-free system, by measuring the ability of the enzyme to transfer radiolabelled phosphate from gamma-32P-ATP to histone, and exogenous substrate.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The cell biology of ras-induced transformation: insights from studies utilizing an inducible hybrid oncogene system. 284 54

The spontaneously immortalized human skin keratinocytes HaCaT contain protein kinase C (PKC) alpha, -delta, -epsilon, and -zeta. All PKC isoenzymes except PKC zeta are down-regulated by TPA as well as by bryostatin. However, with PKC delta, bryostatin but not TPA was found to be much less effective at high concentrations than at low ones. PKC delta expression at the protein and mRNA level is significantly suppressed in HaCaT cells I-7 and II-4, which are transfected with mutated c-Ha-ras. The expression of the other isoenzymes remains essentially unchanged in the ras-transfected cells compared to normal ones. PKC delta is lost when growing HaCaT cells in a medium obtained from the cultivation of ras-transfected cells ("ras-conditioned" medium). The factor secreted into the medium by the ras-transfected cells that is responsible for this effect appears to be TGF alpha, since the action of ras-conditioned medium on PKC delta expression can be overcome by the addition of an anti-TGF alpha antibody. Moreover, treatment of HaCaT cells with TGF alpha suppresses selectively the expression of the PKC isoenzyme delta.
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PMID:Loss of protein kinase C delta from human HaCaT keratinocytes upon ras transfection is mediated by TGF alpha. 762 46

The induction of transcription of specific genes after exposure to ionizing radiation has previously been reported after lethal doses of radiation (2-50 Gy). Little attention has been focused on expression of "immediate early genes" after low doses of ionizing radiation, where cell viability remains high. This dose range (0.25-2.0 Gy) is above the diagnostic dose level but at or below the doses typical for a single exposure in fractionated radiotherapy treatment of cancer. In this study, it was observed that doses in the range of 0.25-2.0 Gy induced different amounts of the mRNAs of the proto-oncogenes c-fos, c-jun, c-myc and c-Ha-ras at a given dose and time in Epstein-Barr virus-transformed human lymphoblastoid 244B cells. A maximum response was seen after a dose of 0.5 Gy for all but c-fos, which showed a maximum response after exposure to 0.25 Gy. Time-course studies demonstrated that, for all four proto-oncogenes, the induction was transient, reaching a maximum at 1 h and declining to the constitutive level at 4 h after irradiation. Using second-messenger specific inhibitors, the signaling pathways involved in the induction of these proto-oncogenes was also investigated. The results showed that all four of the proto-oncogenes induced after 0.5 Gy shared a common pathway of tyrosine kinase activation. Other signaling pathways included protein kinase C, reactive oxygen intermediates and calcium-dependent kinases; these were found to be differentially involved in the induction of transcription of the individual proto-oncogenes. In summary, this study suggests that low-dose ionizing radiation (0.25-2.0 Gy) can modulate expression of immediate early genes. Secondly, the activation of immediate early genes after low-dose exposure involves multiple second-messenger signaling pathways. Third, the magnitude of involvement of the different signaling pathways after low-dose radiation is different for each proto-oncogene expressed.
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PMID:Induction of transcription of "immediate early genes" by low-dose ionizing radiation. 765 63

Elucidation of the mechanisms involved in the deregulation of vascular smooth muscle cell (SMC) growth and differentiation during the course of atherogenesis and the putative role of toxic injury in this process have been a subject of considerable interest in recent years. In this regard, we have recently shown that in vitro exposure of vascular (aortic) SMCs to benzo[a]pyrene (BaP), an atherogenic polycyclic aromatic hydrocarbon, initially delays cell cycle progression and inhibits cell proliferation and then causes permanent modulation to a highly proliferative state. To define the molecular basis of this response, we have examined critical components of the protein kinase C (PKC) signal transduction system upon exposure to BaP. Marked inhibition of serum-stimulated inositol phospholipid turnover was observed in growth-arrested SMC cultures challenged with 30 microM BaP for 24 h and then stimulated with 10% fetal bovine serum for 120 or 1800 s. Benzo[a]pyrene inhibited PKC-mediated phosphorylation of exogenous and endogenous proteins in the cytosolic and particulate fraction of cycling, as well as quiescent cultures. The PKC inhibitory response was observed as early as 0.5 h following BaP treatment and maintained for at least 5 days. Exposure of quiescent SMCs to 30 microM BaP inhibited the ability of serum to induce c-fos mRNA expression and decreased AP-1 binding to a 12-O-tetradecanoyl phorbol-13-acetate responsive element. Inhibition of PKC-related signal transduction was not due to generalized interference with cell cycle events since peak expression of the c-myc and c-Ha-ras protooncogenes following serum stimulation of quiescent cultures was unchanged, or slightly enhanced, by 30 microM BaP. Collectively, these data suggest that the ability of BaP to modulate growth and differentiation programs in vascular SMCs involves early interference with PKC-related mitogenic signal transduction.
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PMID:Interference with protein kinase C-related signal transduction in vascular smooth muscle cells by benzo[a]pyrene. 772 52

The induction of epidermal differentiation by Ca2+ in vitro is associated with enhanced activity of phosphatidylinositol-specific phospholipase C (PLC). Neoplastic keratinocyte cell lines expressing a mutant c-Ha-ras gene and normal keratinocytes transformed to the neoplastic phenotype by transduction with the v-Ha-ras gene (v-Ha-ras keratinocytes) have elevated constitutive activity of PLC that increases further in response to Ca2+, but the cells do not differentiate normally. PLC-gamma 1 (145 kDa) is the major isoform detected by immunoblotting of extracts from control, v-Ha-ras, and neoplastic keratinocyte cell lines cultured in 0.05 mM Ca2+ medium. The amount of PLC-gamma 1 protein was higher in neoplastic cell lines than in normal and v-Ha-ras keratinocytes that had similar PLC-gamma 1 protein levels. Thus, higher PLC-gamma 1 protein levels cannot account for the elevated constitutive activity PLC in v-Ha-ras keratinocytes. After induction of differentiation by Ca2+, the amount of PLC-gamma 1 protein increased in all cell types, and PLC-delta 1 (85 kDa), barely detectable in 0.05 mM Ca2+, increased. PLC-beta 1 was not detected at any Ca2+ concentration. PLC-gamma 1 and PLC-delta 1 mRNA did not increase after elevation of extracellular Ca2+, suggesting that posttranscriptional mechanisms can regulate PLC-gamma 1 and PLC-delta 1 protein levels in normal and neoplastic keratinocytes. Activation of protein kinase C by treatment with 12-O-tetradecanoylphorbol-13-acetate (TPA) inhibited the stimulation of inositol phosphate (InsP) formation by Ca2+ but did not alter basal InsP levels in normal keratinocytes. In contrast, TPA treatment reduced both Ca(2+)-stimulated and basal InsP formation in neoplastic cells lines and v-Ha-ras keratinocytes. In both normal and v-Ha-ras keratinocytes labeled with [32P]orthophosphate, antibodies against PLC-gamma 1 immunoprecipitated a complex of 32P-labeled proteins. The relative labeling of the PLC-gamma 1 band was greater in normal than in v-Ha-ras keratinocytes. Furthermore, treatment with TPA specifically increased the relative phosphorylation of PLC-gamma 1 in v-Ha-ras keratinocytes but not in normal keratinocytes. These results suggest that the negative regulation of constitutive activity of PLC by protein kinase C differs in normal and neoplastic keratinocytes and that this could be the mechanism of increased PLC activity produced by an oncogenic ras gene in keratinocytes.
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PMID:Differences in the regulation of phosphatidylinositol-specific phospholipase C in normal and neoplastic keratinocytes. 806 82

In T cells, signals initiated at the TCR, and in particular activation of protein kinase C (PKC), can activate the p21ras proteins. Triggering of the TCR and PKC is required for the efficient production of the T cell growth factor, IL-2. IL-2 gene transcription is controlled by a 275-bp enhancer that is known to contain binding sites for many transcription factors including the octamer family of proteins, NF kappa B, AP-1, and a T cell-specific factor, NFAT (nuclear factor of activated T cells). NFAT binds to a region of the IL-2 enhancer that has been defined as a TCR response element (ARRE-2), and is induced in response to increases in intracellular calcium, stimulation of PKC, or triggering of the TCR. To determine whether p21ras is involved in the signals that regulate NFAT, we examined the effect of expression of a constitutively active p21ras mutant, v-Ha-ras, and a dominant inhibitory mutant of p21ras, c-Ha-ras(asn)17, on the induction of a NFAT-driven reporter gene (NFAT CAT) during T cell activation. The constitutively active Ras mutant could synergize with the calcium ionophore ionomycin to induce NFAT. In addition, expression of p21v-Ha-ras could enhance NFAT CAT induction in response to TCR and PKC agonists. The dominant inhibitory mutant of p21ras could prevent NFAT CAT expression in response to PKC or TCR triggering. These data show that Ras regulates NFAT, and that p21ras function is important for the TCR- and PKC-regulated pathways that regulate NFAT.
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PMID:p21ras function is important for T cell antigen receptor and protein kinase C regulation of nuclear factor of activated T cells. 847 36


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