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)

Protein kinase C (PKC), the major receptor for tumor-promoting phorbol esters, consists of a family of at least eight distinct lipid-regulated enzymes. How the various PKC isozymes are regulated in vivo and how they couple to particular cellular responses is largely unknown. We have examined the expression and regulation of PKC isoforms in R6 rat embryo fibroblasts. Northern and Western blot analyses indicate that these cells express four PKC isoforms, cPKC alpha, nPKC epsilon, nPKC delta, and nPKC zeta; of which nPKC epsilon and nPKC delta are the most abundant. In agreement with the simultaneous presence of cPKC and nPKC isozymes, both Ca(2+)-dependent and -independent PKC activities were detected in extracts of these cells. cPKC alpha and nPKC zeta were predominantly localized in the cytosol when subcellular fractionation was carried out in the presence of [ethylenebis(oxyethylenenitrilo)]tetraacetic acid. When cell lysis was carried out in the presence of Ca2+, greater than 50% of cPKC alpha redistributed to the particulate fraction, whereas nPKC zeta remained in the cytosol. In contrast to cPKC alpha and nPKC zeta, 60-80% of nPKC epsilon and nPKC delta were located in a Ca(2+)-insensitive, membrane-bound form. Treatment of R6 cells with 12-O-tetradecanoyl phorbol 13-acetate (TPA), resulted in the translocation of all four PKC isozymes to the membrane fraction, and the subsequent down-regulation of cPKC alpha, nPKC zeta, and nPKC delta, nPKC epsilon, however, was only partially down-regulated in response to long-term TPA exposure. Overproduction of exogenous cPKC beta I in R6 cells conferred partial resistance of nPKC delta to TPA-induced down-regulation and potentiated the resistance of nPKC epsilon to down-regulation. These results demonstrate that the multiple isoforms of PKC which coexist within a single cell type are differentially regulated by extra- and intracellular stimuli and may thereby influence growth control and transformation via distinct mechanisms.
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PMID:Expression of four protein kinase C isoforms in rat fibroblasts. Distinct subcellular distribution and regulation by calcium and phorbol esters. 161 87

Subconfluent cultures of LLC-PK1 cells were incubated for 1 h in Krebs-Henseleit buffer (KHB) of pH 7.4 or 6.8 to investigate the signal transduction events associated with prostaglandin F2 alpha (PGF2 alpha) inhibition of ammonia metabolism. Exposure of these cultures to PGF2 alpha (0.1 ng/ml) inhibited the acute low pH stimulation of ammonia production and to a lesser degree alanine formation in a manner analogous to the response exhibited with the phorbol ester 12-O-tetradecanoylphorbol-13-acetate (TPA). Pretreatment with an inhibitor of protein kinase C [1-(5-isoquinolinylsulfonyl)-2-methylpiperazine, i.e., H-7] or utilization of cultures with downregulated protein kinase C activity abolished the inhibitory response to PGF2 alpha. Exposure to PGF2 alpha for 10 min in KHB of pH 6.8 resulted in an activation of protein kinase C, as demonstrated by a significant increase in membrane-bound enzyme activity. Incubation of the cells with PGF2 alpha in KHB of pH 6.8 also resulted in a significant increase in inositol trisphosphate formation. Treatment of the cultures with verapamil in calcium-containing medium or removal of calcium from the incubating medium resulted in a significant loss of the PGF2 alpha inhibitory response on both ammonia and alanine production. Furthermore, under conditions of calcium-free incubation, PGF2 alpha had no significant effect on protein kinase C activity. Because both PGF2 alpha- and TPA-induced inhibition of ammoniagenic response to acute acidosis was prevented by amiloride, the underlying mechanism may involve protein kinase C-mediated changes in intracellular pH. These results indicate that the activation of protein kinase C plays a key role in mediating PGF2 alpha inhibition of ammoniagenesis.
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PMID:Signal transduction events whereby PGF2 alpha inhibits the ammoniagenic response to acute acidosis. 162 19

To investigate the role of protein kinase C (PKC) in the 12-O-tetradecanoylphorbol-13-acetate (TPA)-dependent growth of human melanocytes, we analyzed the effects of phorbol ester treatment on both PKC expression and growth control in these cells. We found that established cultures of normal melanocytes contain the PKC alpha, PKC beta, and PKC epsilon isoforms. The abilities of various phorbol ester compounds to stimulate DNA synthesis in these cultured melanocytes correlated with their known potencies for activation of PKC and tumor promotion. Dose-response studies revealed that the most effective TPA concentration for stimulation of DNA synthesis and growth of melanocytes (10 ng/ml TPA) also supported a relatively high level of PKC enzyme activity, increased membrane association of the PKC alpha and PKC epsilon isoforms, and led to a high level of phosphorylation of a major PKC substrate, the myristoylated alanine-rich C kinase substrate (MARCKS) protein. Melanocytes incubated for 48 h with TPA at a higher concentration (100 ng/ml TPA) exhibited suboptimal TPA-stimulated DNA synthesis (28% of maximal) and decreased phosphorylation of the MARCKS substrate protein (50% of maximal). Furthermore, treatment of melanocytes with 100 ng/ml TPA for 48 h resulted in a marked decrease in total PKC enzyme activity and the loss of expression of the PKC alpha and PKC epsilon isoforms in both the cytosol and membrane-bound fractions, when examined by immunoblot analysis. These results, taken together, suggest that continuous activation of PKC by TPA, rather than the loss of PKC due to TPA-induced down-regulation, is responsible for the growth-stimulatory effects of phorbol esters on normal human melanocytes. Additionally, the conditioned medium from TPA-treated human melanocytes stimulated DNA synthesis in quiescent melanocytes and human melanoma cells, thus suggesting that activation of the PKC signaling pathway in melanocytes leads to the production of an autocrine growth factor. These findings may be relevant to the autonomous growth of malignant melanomas.
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PMID:Growth of human melanocyte cultures supported by 12-O-tetradecanoylphorbol-13-acetate is mediated through protein kinase C activation. 164 43

Although the translocation of protein kinase C and phospholipase A2 are well documented, no information is available about the possible down-modulation of transmembrane phospholipase C. We found that TPA induced a dose-dependent (10-200 nM) and time-dependent (15 min-6 h) down-modulation of transmembrane phosphoinositidase C (PLC-PI) on lymphoid cells (CEM-CM3 and WIL2-NS) and epitheloid carcinoma cells (HeLa S3) but not on human fibroblasts (MRC-5). Cell-surface expression of PLC-PI on intact cells was assayed by flow cytometry using saturating concentrations of polyclonal anti-PLC-PI antibodies and phycoerythrin-conjugate. A control phorbol-ester which does not activate protein kinase C (PKC) had no internalization effect on PLC-PI. PKC inhibitors staurosporine (2.5 nM) and H-7 (10 microM) partially inhibited the TPA effect. Cytochalasin B (40 micrograms/ml) did not modify the TPA-induced PLC-PI down-modulation. The effect of TPA on PLC-PI seems quite specific since no internalization was induced by TPA on transmembrane phosphatidylcholine-preferring PLC expression. These results show that TPA can translocate the membrane-bound PLC-PI, probably by PKC activation.
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PMID:Topological regulation of cell-membrane phosphoinositidase C. 165 Jan 98

Dihydropyridine-sensitive Ca2+ channels from skeletal muscle are multisubunit proteins and are regulated by protein phosphorylation. The purpose of this study was to determine: 1) which subunits are the preferential targets of various protein kinases when the channels are phosphorylated in vitro in their native membrane-bound state and 2) the consequences of these phosphorylations in functional assays. Using as substrates channels present in purified transverse (T) tubule membranes, cAMP-dependent protein kinase (PKA), protein kinase C (PKC), and a multifunctional Ca2+/calmodulin-dependent protein kinase (CaM protein kinase) preferentially phosphorylated the 165-kDa alpha 1 subunit to an extent that was 2-5-fold greater than the 52-kDa beta subunit. A protein kinase endogenous to the skeletal muscle membranes preferentially phosphorylated the beta peptide and showed little activity toward the alpha 1 subunit; however, the extent of phosphorylation was low. Reconstitution of partially purified channels into liposomes was used to determine the functional consequences of phosphorylation by these kinases. Phosphorylation of channels by PKA or PKC resulted in an activation of the channels that was observed as increases in both the rate and extent of Ca2+ influx. However, phosphorylation of channels by either the CaM protein kinase or the endogenous kinase in T-tubule membranes was without effect. Phosphorylation did not affect the sensitivities of the channels toward the dihydropyridines. Taken together, the results demonstrate that the alpha 1 subunit is the preferred substrate of PKA, PKC, and CaM protein kinase when the channels are phosphorylated in the membrane-bound state and that phosphorylation of the channels by PKA and PKC, but not by CaM protein kinase or an endogenous T-tubule membrane protein kinase, results in activation of the dihydropyridine-sensitive Ca2+ channels from skeletal muscle.
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PMID:Dihydropyridine-sensitive calcium channels from skeletal muscle. II. Functional effects of differential phosphorylation of channel subunits. 165 34

The neuronal tissue-specific protein kinase C (PKC) substrate B-50 can be dephosphorylated by endogenous protein phosphatases (PPs) in synaptic plasma membranes (SPMs). The present study characterizes membrane-associated B-50 phosphatase activity by using okadaic acid (OA) and purified 32P-labeled substrates. At a low concentration of [gamma-32P]ATP, PKC-mediated [32P]phosphate incorporation into B-50 in SPMs reached a maximal value at 30 s, followed by dephosphorylation. OA, added 30 s after the initiation of phosphorylation, partially prevented the dephosphorylation of B-50 at 2 nM, a dose that inhibits PP-2A. At the higher concentration of 1 microM, a dose of OA that inhibits PP-1 as well as PP-2A, a nearly complete blockade of B-50 dephosphorylation was seen. Heat-stable PP inhibitor-2 (I-2) also inhibited dephosphorylation of B-50. The effects of OA and I-2 on B-50 phosphatase activity were additive. Endogenous PP-1- and PP-2A-like activities in SPMs were also demonstrated by their capabilities of dephosphorylating [32P]phosphorylase a and [32P]casein. With these exogenous substrates, sensitivities of the membrane-bound phosphatases to OA and I-2 were found to be similar to those of purified forms of these enzymes. These results indicate that PP-1- and PP-2A-like enzymes are the major B-50 phosphatases in SPMs.
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PMID:Okadaic acid-induced inhibition of B-50 dephosphorylation by presynaptic membrane-associated protein phosphatases. 165 92

We have previously shown that 2,3-diphosphoglycerate (2,3-DPG) inhibits the phosphorylation of erythrocyte membrane cytoskeletal proteins by endogenous casein kinases. Here, we report that 2,3-DPG stimulates the phosphorylation of protein 4.1 by protein kinase C. Studies with red cell membrane preparations showed that while the phosphorylation of most of the membrane proteins by endogenous membrane-bound kinases and purified kinase C was inhibited by 2,3-DPG, the phosphorylation of protein 4.1 was slightly enhanced by the metabolite. The effect of 2,3-DPG was further examined using purified protein 4.1 preparations. Our results indicate that 2,3-DPG stimulates both the rate and the extent of phosphorylation of purified protein 4.1 by kinase C. The amount of phosphate incorporated was found to double to 2 mol of phosphate per mole of protein 4.1 in the presence of 10 mM 2,3-DPG. The increase in phosphorylation was distributed over all phosphorylation sites as revealed by an analysis of the labeling patterns of phosphopeptides resolved by high performance liquid chromatography, but a significantly higher incorporation was detected in two of the phosphopeptides. The stimulatory effect of 2,3-DPG on the phosphorylation of protein 4.1 was observed only with kinase C. Phosphorylation by the cytosolic erythrocyte casein kinase and the cyclic AMP-dependent protein kinase was inhibited by 2,3-DPG. Moreover, the stimulatory effect of 2,3-DPG seemed to be unique to the phosphorylation of protein 4.1 since a similar effect had not been observed with other protein kinase C substrates. Our results suggest that 2,3-DPG may play an important role in the regulation of cytoskeletal interactions.
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PMID:Effect of 2,3-diphosphoglycerate on the phosphorylation of protein 4.1 by protein kinase C. 165 67

Upon activation, basophilic granulocytes release inflammatory mediators, such as histamine. We studied histamine release (HR) of purified (64 +/- 10%) human basophils after cross-linking of membrane-bound IgE via anti-IgE or after binding of the chemoattractant formyl-methionyl-leucyl-phenylalanine (FMLP). A variability in the extent of histamine release upon stimulation by either anti-IgE or FMLP was found between donors. Non-responders for FMLP showed high histamine release for anti-IgE, and vice versa. Inhibition of protein kinase C (PKC) by staurosporine (STSP) resulted in partial inhibition of the anti-IgE-induced HR, whereas inhibition of a PKC-independent pathway by wortmannin (WTM) totally blocked the anti-IgE induced histamine release. The HR induced by FMLP was not affected by either of these inhibitors. We conclude that major differences exist in the signal-response coupling between the anti-IgE and FMLP-induced HR in human basophils. The so-called releasability of human basophils may be due to the availability of different cell activation pathways.
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PMID:Differential mechanisms in the stimulus-secretion coupling in human basophils: evidence for a protein-kinase-C-dependent and a protein-kinase-C-independent route. 169 58

Upon activation, basophilic granulocytes release inflammatory mediators such as histamine. We studied histamine release of human basophils (64.1 +/- 9.6% pure) after cross-linking of membrane-bound IgE via anti-IgE, or after binding of the chemoattractant formyl-methionyl-leucyl-phenylalanine (fMLP). A variability in the extent of histamine release upon stimulation by either anti-IgE or fMLP was found between donors. Kinetic studies revealed that the histamine release induced by anti-IgE (t1/2 greater than 240 s) was more than 20-fold slower than the almost instantaneous release upon stimulation with fMLP (t1/2 less than 10 s). Differences in the cell activation pathways triggered by these stimuli were further analyzed with staurosporine, an inhibitor of protein kinase C (PKC) and with wortmannin, an inhibitor of a PKC-independent pathway. Inhibition of PKC resulted in a partial inhibition of the anti-IgE-induced release, whereas the fMLP-induced release was slightly potentiated. The anti-IgE-induced release was completely inhibited in the presence of wortmannin. This inhibitor too, had no effect on the fMLP-induced release. We conclude that major differences exist in the signal-response coupling between the anti-IgE and fMLP-induced histamine release in human basophils. The so-called releasability of human basophils may be due to the availability of different cell activation pathways.
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PMID:Differential activation of human basophils by anti-IgE and formyl-methionyl-leucyl-phenylalanine. Indications for protein kinase C-dependent and -independent activation pathways. 170 41

Inhibiting protein kinase C (PKC) activity abrogated interleukin 2 (IL2) production by mitogen-stimulated human T lymphocytes. This effect was due partially to a 50% decrease in IL2 gene expression. However, when PKC inhibitors were added after IL2 gene transcription had already proceeded for 3-4 h, the IL2 in the culture supernatants was still reduced by 30-80%, and intracellular IL2 was increased by up to 50%. The inhibition of PKC affected the expression of IL2 receptors by these cells differently; it had little effect on gene expression or on the membrane-bound form of the receptor, but it decreased soluble receptors in the supernatants by 50-80%. These data indicate that in addition to its previously defined role in gene expression, PKC can also regulate extracellular secretion of proteins critical for T cell proliferation.
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PMID:Protein kinase C regulates both production and secretion of interleukin 2. 170 36


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