EC:2.7.11.13 - FACTA Search

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)

When incubated with N6-2'-O-dibutyryladenosine 3',5'-cyclic monophosphate (dbcAMP), HL-60 cells expressed formyl peptide receptor (FPR) (as assessed by ligand binding) and FPR transcripts in a time- and concentration-dependent fashion. Experiments using dbcAMP analogs modified at either the C-6 or C-8 position indicated that the process was mediated by a protein kinase A type I, and protein kinase A type I activity was isolated from undifferentiated HL-60 cells by DEAE-Sephacel chromatography. Forskolin mimicked the effects of dbcAMP. Forskolin and dbcAMP-dependent expression of FPR and FPR transcript was inhibited by staurosporine. Retinoic acid (but not retinal or retinol) was capable of inhibiting dbcAMP-dependent expression of FPR mRNA half-life. Dexamethasone enhanced the effects of dbcAMP and blocked the inhibitory effect of retinoic acid on expression of FPR and FPR transcripts. Phorbol 12-myristate 13-acetate (PMA) alone (1.5-15 nM) failed to induce HL-60 to express FPR and FPR transcripts. Low concentrations (1.5 nM) of PMA enhanced the ability of dbcAMP to induce HL-60 cells to express FPR and FPR transcript, whereas high (15 nM) concentrations of PMA inhibited dbcAMP effects. These results indicate that expression of FPR and FPR transcripts by HL-60 cells can be up- and down-regulated by agents that induce HL-60 cells to differentiate and that a "cross-talk" effect exists between protein kinase A and protein kinase C that modulates FPR gene transcription (and receptor expression) by these cells.
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PMID:Regulation of formyl peptide receptor expression and its mRNA levels during differentiation of HL-60 cells. 130 42

Histologic and clinical improvement of sun-exposed skin following topical treatment with retinoic acid has been reported. Daily application of retinoic acid typically results within 2-5 d in an erythematous scaling reaction, which lessens with continued usage. The cellular, immunologic, and biochemical basis of this retinoid reaction and its role in the repair of photodamaged skin are not known. To investigate the retinoid reaction in man, we have treated non-sun-exposed skin with 0.1% retinoic acid cream (Retin-A, Ortho Pharmaceutical Corporation, Raritan, NJ) under occlusion for 4 d to induce erythema and then examined changes in 1) histology, 2) expression of cell-surface molecules, 3) the enzymes and second messengers of the phospholipase C/protein kinase C signal-transduction system, 4) levels of eicosanoids, and 5) levels of interleukin-1 protein and mRNA. These parameters were chosen for measurement both because they are indicators of epidermal function and previous studies suggest they may be responsive to retinoic acid treatment. Epidermal cell growth as judged by increased epidermal thickness and mitotic figures was significantly increased in retinoic acid-treated skin compared to vehicle-treated controls. Increased numbers of CD4+ T cells accompanied by prominence of dermal dendrocytes in the papillary dermis and focal keratinocyte expression of intercellular adhesion molecule-1 were observed in retinoic acid-treated biopsies. Phosphoinositide-specific phospholipase C activity and 1,2-diacylglycerol content were also elevated in retinoic acid-treated epidermis. Protein kinase C activity was reduced by one third in both the soluble and membrane fraction, suggesting down-regulation. Surprisingly, in view of the inflammatory nature of the retinoid reaction, no increases were observed in arachidonic acid, its metabolites, interleukin-1 alpha, or interleukin-1 beta. To examine the specificity of the retinoid reaction, subjects were treated with the irritant sodium lauryl sulfate, under conditions that resulted in a reaction clinically similar to that observed with retinoic acid. The histologic alterations induced by sodium lauryl sulfate were found to be indistinguishable from those induced by retinoic acid. These data indicate that, although a wide range of cellular and molecular alterations occur in retinoic acid-treated skin, these changes may not be necessarily specific or unique for retinoic acid.
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PMID:Cellular, immunologic and biochemical characterization of topical retinoic acid-treated human skin. 167 98

Previous work from our laboratory showed that tumor promoters such as phorbol ester (TPA) stimulated the release of fibronectin (FN) from the surface of several cell types in culture, and that this stimulation was counteracted by retinoic acid. Diacylglycerols (DAGs) are the endogenous ligands of the TPA receptor and can activate and translocate protein kinase C (PKC) in a manner similar to TPA. To show that the release of FN is related to activation of PKC, we tested the action of DAGs on FN release from human lung fibroblasts and its counteraction by retinoic acid. We found that DAGs stimulated the release of FN in a concentration- and time-dependent manner. The stimulation of the release of FN correlated with the translocation-activation of PKC by DAG. Retinoic acid reversed the action of DAG with respect to stimulation of FN release and inhibited this release even in the absence of DAG. These results suggest that the release of FN is in some way related to translocation-activation of PKC.
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PMID:The effect of diacylglycerols on fibronectin release and its reversal by retinoic acid in cell culture. 193 58

In the growth plate chondrocyte, parathyroid hormone (PTH) stimulates phosphoinositol 4,5 bisphosphate (PIP2) degradation, which results in the rapid production of inositol (1,4,5) triphosphate (IP3). IP3 induced the release of calcium from an intracellular store, which caused a rapid increase in the cytosolic ionized calcium concentration. Parathyroid hormone also induced a 30-50% increase in proteoglycan synthesis. Phorbol esters, which pharmacologically activate protein kinase C, resulted in a 70-80% increase in proteoglycan synthesis. Treatment of the chondrocytes with retinoic acid (0.2 microM) inhibited the parathyroid hormone and phorbol ester-induced increase in intracellular ionized calcium and the increase in proteoglycan synthesis. From this data we postulate that the stimulation of proteoglycan synthesis in growth plate chondrocytes by PTH is mediated by the breakdown of membrane phosphoinositides, which results in the production of IP3 and an increase in ionized intracellular calcium. It is suggested that the degradation of membrane phosphoinositides also results in production of diacylglycerol and, thereby, an activation of protein kinase C, which has a large stimulatory effect on proteoglycan synthesis. The increase in cytosolic calcium most likely acts synergetically with diacylglycerol to activate protein kinase C. Retinoic acid blocks the effect of PTH and phorbol ester-induced proteoglycan synthesis and may act through the inhibition of protein kinase C. The overall effect of PTH on the growth plate chondrocyte appears to be a stimulation of proteoglycan synthesis that is mediated by the degradation products of membrane phosphoinositides.
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PMID:Mechanism of action of parathyroid hormone-induced proteoglycan synthesis in the growth plate chondrocyte. 215 1

Levels of epidermal growth factor (EGF) receptor expression vary widely among cell lines derived clonally from a chemically transformed population of rat liver epithelial cells. Retinoic acid (RA), a derivative of vitamin A that stimulates differentiation in a number of embryonal cell lines, increases the level of 125I-EGF binding in several clones of the transformed cell lines. One such cell line, GP6ac, which reverts to a less transformed phenotype when treated with RA, exhibited a 3-4-fold increase in surface EGF receptors with prolonged (2-5-day) RA exposure. The increase persisted as long as the cells were treated with RA. The increase in surface EGF receptors was due to induction of receptor biosynthesis, which occurred within 4 h at both the mRNA and protein levels and persisted until the RA was withdrawn. Paradoxically, the RA response was accompanied by an initial 40-50% decrease in 125I-EGF binding during the first 12 h of RA treatment. The decrease was due primarily to a reduction of receptor affinity. Since the phorbol ester 12-O-tetradecanoylphorbol-13-acetate also decreases 125I-EGF binding and increases EGF receptor biosynthesis in GP6ac cells, we tested the effect of RA in cells depleted of protein kinase C by prolonged treatment (18 h) with 10 microM 12-O-tetradecanoylphorbol-13-acetate. The absence of protein kinase C did not affect the induction of receptor mRNA and protein or the decrease in binding during the early period of RA exposure. This indicates that RA induction of EGF receptor synthesis in GP6ac cells involves signaling pathways distinct from those utilized by phorbol esters.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Characterization of epidermal growth factor receptor induction by retinoic acid in a chemically transformed rat liver cell line. 228 80

Retinoic acid inhibits the proliferation of B16 mouse melanoma cells. It also eliminates the ability of these cells to grow in soft agar. These biological actions of retinoic acid have been shown to be accompanied by an increase in the amount of cyclic AMP-dependent protein kinase and an induction of a new isozyme form (RII beta). In this report we demonstrated that retinoic acid-treated B16 melanoma cells had large increases in protein kinase C activity. This increased enzyme activity was accompanied by increases in both the number of phorbol dibutyrate binding sites and the amount of immunoreactive protein kinase C. Other treatments (melanocyte-stimulating hormone, serum deprivation) which inhibited the growth of these cells did not increase protein kinase C activity. When B16 melanoma cells were treated for a prolonged time (72 h) with phorbol dibutyrate, protein kinase C activity was barely detectable. Under these conditions, melanin production was inhibited and cell growth was accelerated. When retinoic acid was added together with phorbol dibutyrate, it prevented the growth stimulatory effect of the phorbol ester and increased protein kinase C activity. However, the absolute activity of the enzyme was still below that found in control cells and very much lower than in cells treated with retinoic acid alone. Taken together with our previous findings, we propose that the increase in protein kinase C might be part of a differentiation program induced by retinoic acid.
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PMID:Induction of protein kinase C in mouse melanoma cells by retinoic acid. 274 37

Transmembrane signaling via specific ligand/receptor interactions induces the immediate polymerization of actin and formation of microfilament assemblies close to the plasma membrane. The profilin:actin complex appears to provide the actin for this filament formation. A clue to the nature of the regulatory mechanism involved was recently found in that phosphatidylinositol 4,5-bisphosphate can bind to profilin, dissociate the profilactin complex, and thus liberate actin for polymerization. This suggests that the phosphatidylinositol (PI) cycle, which plays important roles in cellular regulation, also might control microfilament-based motility. We show here that neomycin, a drug which has a high affinity for phosphoinositides and in vivo interferes with the PI cycle, inhibits the polymerization of actin in platelets induced either by thrombin or by ADP. When ADP was used as agonist (but not in the case of thrombin) the induction of actin polymerization could also be blocked by the addition of aspirin. Introduction of Ca2+ into platelets by the use of the ionophore A23187 or stimulation of protein kinase C (PkC) by the phorbol ester TPA did not induce actin polymerization; neither did the addition of a combination of these two agents. Retinoic acid which inhibits PkC was also without effect on thrombin-induced actin polymerization.
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PMID:Evidence that the phosphatidylinositol cycle is linked to cell motility. 282 93

Deoxycholate (DOC), chenodeoxycholate, 12-O-tetradecanoyl phorbol-13-acetate (TPA), or 1-oleoyl-2-acetyl-glycerol (OAG) activated colonic epithelial protein kinase C as reflected by translocation from the soluble to the particulate cell fraction. Activation of protein kinase C was correlated with stimulation of enhanced proliferative activity of colonic mucosa and reactive oxygen production. TPA and OAG, but not DOC, directly activated soluble protein kinase C in vitro. However, DOC rapidly increased labeled inositol phosphate and diacylglycerol accumulation in colonic epithelial cells. Retinoic acid inhibited protein kinase C activity and suppressed DOC-, TPA-, and OAG-induced increases in reactive oxygen production. The results support a role for protein kinase C in the stimulation of colonic epithelial proliferative activity and reactive oxygen production induced by bile acids, TPA and OAG. In contrast to TPA and OAG, which activate protein kinase C directly, bile acids appear to activate protein kinase C indirectly by increasing the diacylglycerol content of colonic epithelium.
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PMID:Role of activation of protein kinase C in the stimulation of colonic epithelial proliferation and reactive oxygen formation by bile acids. 302 28

Phorbol esters stimulate differentiation of certain human leukemic cell lines. Although activation of protein kinase C may mediate certain effects of phorbol esters, controversy exists as to the role of protein kinase C activation in phorbol ester-induced differentiation. Retinoic acid modulates responses to phorbol esters in several cell types. Retinoic acid has also been found to alter protein kinase C-dependent phosphorylation in leukemic cells. We correlated the effects of retinoic acid on protein kinase C-dependent phosphorylation and differentiation stimulated by 12-O-tetradecanoylphorbol-13-acetate (TPA), a phorbol ester, in the human monoblastoid U937 cell line. At concentrations less than 1 nM, which were 100-fold less than those directly stimulating differentiation, retinoic acid potentiated TPA-induced differentiation of the U937 cell as assessed by enhanced adherence to plastic and acquisition of nonspecific esterase activity. TPA-stimulated decreases in cellular proliferation were not affected by retinoic acid treatment. Without altering the sensitivity to TPA, retinoic acid increased the maximal response to this agent. Retinoic acid enhanced TPA-stimulated phosphorylation of a Mr 48,000 substrate in intact 32P-labeled U937 cells and also increased the protein kinase C-dependent phosphorylation of a similar Mr 48,000 substrate and a Mr 80,000 substrate in cellular extracts. In cellular extracts the retinoic acid-induced enhancement of protein kinase C-dependent phosphorylation was predominantly localized to the cytosolic fraction. Increases in protein kinase C-dependent phosphorylation were evident within a 12-h exposure to 1 nM retinoic acid and were observed at retinoic concentrations of 0.01 to 1 nM. A retinoic acid-induced increase in the protein kinase C-dependent phosphorylation of an exogenous substrate, histone, was observed following diethylaminoethyl extraction of cytosol, but not a solubilized particulate fraction. The conditions of retinoic acid treatment increasing protein kinase C activity and enhancing protein kinase C-dependent phosphorylation of endogenous substrates were similar to those conditions potentiating phorbol ester-induced differentiation. Thus, the retinoic acid-induced amplification of phorbol ester signal transduction at the level of protein kinase C activation could mediate the effects of this vitamin on phorbol ester-induced differentiation.
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PMID:Effect of retinoic acid on phorbol ester-stimulated differentiation and protein kinase C-dependent phosphorylation in the U937 human monoblastoid cell. 304 49

UV-TDTx cells are cloned from foci arising after C3H10T1/2 cells are sequentially exposed to u.v. irradiation followed by tetradecanoylphorbol acetate (TPA). When grown in pure culture, UV-TDTx cells appear transformed. Co-culture with C3H10T1/2 cells suppresses focus formation by the UV-TDTx cells. In the presence of TPA, however, focus formation by UV-TDTx cells occurs in C3H10T1/2 co-cultures. We now demonstrate that only tumor promoters that activate protein kinase C (TPA, teleocidin) can reverse C3H10T1/2 suppression of UV-TDTx focus formation in co-culture; other promoters (diethyl stilbestrol, dioxin, saccharin, cadmium) are inactive. Retinoic acid, a potent inhibitor of many biological effects of TPA, blocks the action of TPA in UV-TDTx:C3H10T1/2 co-cultures. Focus formation by UV-TDTx cells in co-culture is dependent on the size of the UV-TDTx colony at confluence; if the UV-TDTx colony is below a minimal size when the co-cultures reach density-dependent growth arrest, suppression of focus formation by C3H10T1/2 cells occurs even in the presence of TPA. Finally, TPA must be present prior to confluence to relieve suppression of focus formation. If TPA is added to co-cultures after density arrest, UV-TDTx cells will not subsequently form foci.
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PMID:Colony size, cell density and nature of the tumor promoter are critical variables in expression of a transformed phenotype (focus formation) in co-cultures of UV-TDTx and C3H10T1/2 cells. 359 32

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