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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 structure of protein kinase C zeta (PKC zeta) is unusual with respect to other PKCs, as it lacks the C2 domain and possesses only one zinc finger region. Consequently, PKC zeta can not be activated by diacylglycerol or phorbol esters and is not downregulated by prolonged treatment by phorbol esters nor blocked by commonly utilized PKC inhibitors. In this study, we have explored the idea that PKC zeta might participate in proliferative pathways. Our findings show that marked overexpression of mammalian PKC zeta does not alter the growth characteristics of NIH 3T3 cells, nor induces cellular transformation. Furthermore, mammalian PKC zeta does not potentiate the transforming ability of oncogenes such as ras, sis and the muscarinic receptor m1. In this context, PKC zeta or its dominant negative mutant do not affect MAP kinase activation by oncogenes or growth factors. Taken together, our findings demonstrate that mammalian PKC zeta does not directly participate in signaling pathways involved in oncogenic transformation.
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PMID:Overexpression of mammalian protein kinase C-zeta does not affect the growth characteristics of NIH 3T3 cells. 763 44

Protein kinase C (PCK) epsilon has been found to have unique properties among the PCK isozymes in terms of its membrane association, oncogenic potential, and substrate specificity. Recently we have demonstrated that PKC epsilon localizes to the Golgi network via its zinc finger domain and that both the holoenzyme and its zinc finger region modulate Golgi function. To further characterize the relationship between the domain organization and the subcellular localization of PKC epsilon, a series of NIH 3T3 cell lines were created, each overexpressing a different truncated version of PKC epsilon. The overexpressed proteins each were designed to contain an epsilon-epitope tag peptide at the COOH terminus to allow ready detection with an antibody specific for the tag. The subcellular localization of the recombinant proteins was analyzed by in vivo phorbol ester binding, immunocytochemistry, and cell fractionation followed by immunoblotting. Results revealed several regions of PKC epsilon that contain putative subcellular localization signals. The presence either of the hinge region or of a 33-amino-acid region including the pseudosubstrate sequence in the recombinant proteins resulted in association with the plasma membrane and cytoskeletal components. The catalytic domain was found predominantly in the cytosolic fraction. The accessibility and thus the dominance of these localization signals is likely to be affected by the overall conformation of the recombinant proteins. Regions with putative proteolytic degradation sites also were identified. The susceptibility of the overexpressed proteins to proteolytic degradation was dependent on the protein conformation. Based on these observations, a model depicting the interaction and hierarchy of the suspected localization signals and proteolytic degradation sites is presented.
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PMID:Protein kinase C epsilon subcellular localization domains and proteolytic degradation sites. A model for protein kinase C conformational changes. 764 54

The molecular dissection of protein kinase C (PKC) action has been based in part on time-consuming functional assays such as the mouse skin model for testing the tumor promoter activity of phorbol esters and related PKC activators. To help overcome the limitations imposed by the complexity of such assays, we developed the yeast Saccharomyces cerevisiae as an alternative, rapid, and simple experimental system. This model has a specific phenotype, an increase in the cell doubling time, that is proportional to the level of enzymatic activity of expressed mammalian PKC isoforms. We used this phenotype to assay and compare the regulation of native bovine PKC alpha and mutants in the conserved regulatory region C1 in vivo by various activators: two diterpenes, the phorbol ester phorbol-12-myristate-13-acetate (PMA) and mezerein, and the indole alkaloid indolactam V. We found that PMA activated PKC mutants lacking either Cys-rich, zinc finger-like repeat of the conserved region C1 to comparably reduced levels, whereas indolactam V activated native PKC alpha but none of the mutants at normal doses. In contrast, mezerein activated native PKC alpha and a mutant lacking the second Cys repeat equally well but mutants lacking the first Cys repeat of C1 at a greatly reduced level. These differential responses were supported by the observed in vitro PKC catalytic activities. Therefore, PMA regulates PKC alpha activity comparably well via either Cys repeat, whereas mezerein regulation predominantly occurs via the first Cys repeat of C1. Indolactam V activation was less potent, it was greatly reduced in the absence of either Cys repeat, and displayed no preference. We introduce this phenotypic assay as a rapid and general screen for the PKC-activating or possibly inhibitory potential of drug candidates and to identify the PKC regulatory sites involved in these interactions.
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PMID:Differential protein kinase C ligand regulation detected in vivo by a phenotypic yeast assay. 789 69

The protein kinase C (PKC) family of serine-threonine kinases comprises at least eight members. These are differentially expressed, show varying affinities for activators such as Ca2+ and lipid species, and are therefore thought to play wide-ranging roles in the regulation of such cellular processes as differentiation, growth, and secretion. The aim of this study was to identify new PKC isoforms in the insulin-secreting cell line RINm5F that might be activated by the alterations in lipid metabolism that accompany nutrient-stimulated insulin release. Fragments of cDNA, derived from RINm5F cell mRNA, were amplified by the polymerase chain reaction using degenerate oligonucleotide primers corresponding to highly conserved regions in the catalytic domains of all known PKCs. A novel sequence generated by this approach was subsequently used to screen cDNA libraries. The entire 587-amino acid coding region of a new PKC isoform, PKC iota, was deduced from two overlapping clones isolated from a human kidney cDNA library. The amino acid sequence of PKC iota showed greatest homology to PKC zeta, with 72% identity overall rising to 84% in the catalytic domain. In contrast, the homology of PKC iota to the other isoforms was less pronounced, with < 53% identity even in the highly conserved catalytic region. Further similarities between PKC zeta and PKC iota included a highly conserved pseudosubstrate sequence, the absence of an apparent Ca(2+)-binding region, and the presence of only one cysteine-rich, zinc finger-like domain. Northern blot analysis, using the full-length PKC iota clone as a probe, revealed a single 4.6-kilobase transcript present predominantly in lung and brain, but also expressed at lower levels in many tissues including pancreatic islets. In CHO-K1 cells stably expressing the PKC iota cDNA under the human beta-actin promoter, the protein was detected as a 65-kDa band by Western blotting using an antibody to the COOH terminus of PKC zeta (conserved in PKC iota). Extracts of transfected CHO-K1 cells also displayed a significantly increased kinase activity using myelin basic protein as a substrate. The results suggest that PKC iota should be included in the atypical subgroup of PKCs whose definitive member is PKC zeta. As such, PKC iota is unlikely to be activated by the diacylglycerol that is derived from phosphoinositide hydrolysis, but might be a target for novel lipid activators that are elevated during nutrient-stimulated insulin secretion.
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PMID:Molecular cloning and characterization of PKC iota, an atypical isoform of protein kinase C derived from insulin-secreting cells. 822 78

The members of the atypical subfamily of protein kinase C (PKC) show dramatic structural and functional differences from other PKC isotypes. Thus, in contrast to the classical or novel PKCs, they are not activated by diacylglycerol or phorbol esters. However, the atypical PKCs are the target of important lipid second messengers such as ceramide, phosphatidic acid, and 3'-phosphoinositides. The catalytic and pseudosubstrate sequences in the two atypical PKCs (lambda/iota PKC and zeta PKC) are identical but are significantly different from those of conventional or novel PKCs. It has been shown that microinjection of a peptide with the sequence of the pseudosubstrate of the atypical PKC isotypes but not of alpha PKC or epsilon PKC dramatically inhibited maturation and NF-kappa B activation in Xenopus oocytes, as well as reinitiation of DNA synthesis in quiescent mouse fibroblasts. This indicates that either or both atypical isoforms are important in cell signalling. Besides the pseudosubstrate, the major differences in the sequence between lambda/iota PKC and zeta PKC are located in the regulatory domain. Therefore, any functional divergence between the two types of atypical PKCs will presumably reside in that region. We report here the molecular characterization of lambda-interacting protein (LIP), a novel protein that specifically interacts with the zinc finger of lambda/iota PKC but not zeta PKC. We show in this paper that this interaction is detected not only in vitro but also in vivo, that LIP activates lambda/iota PKC but not zeta PKC in vitro and in vivo, and that this interaction is functionally relevant. Thus, expression of LIP leads to the transactivation of a kappa B-dependent promoter in a manner that is dependent on lambda/iota PKC. To our knowledge, this is the first report on the cloning and characterization of a protein activator of a PKC that binds to the zinc finger domain, which has so far been considered a site for binding of lipid modulators. The fact that LIP binds to lambda/iota PKC but not to the highly related zeta PKC isoform suggests that the specificity of the activation of the members of the different PKC subfamilies will most probably be accounted for by proteins like LIP rather than by lipid activators.
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PMID:Lambda-interacting protein, a novel protein that specifically interacts with the zinc finger domain of the atypical protein kinase C isotype lambda/iota and stimulates its kinase activity in vitro and in vivo. 852 86

Certain protein kinase C (PKC) isotypes are localized to the nucleus during cellular proliferation in murine erythroid cells, as well as in human promyelocytic leukemia and erythroleukemia cells. Because the structure of these PKC isotypes contains a conserved cysteine-rich region that contains the zinc finger DNA binding motif, we tested the hypothesis that selected PKC isotypes found in Friend erythroleukemia cells can bind to DNA. Cell lysates from murine Friend erythroleukemia cells, which express alpha, beta I, and beta II PKC, expressed greater amounts of the beta isoforms than the alpha isoform of PKC in their nuclei, and PKC beta I was found in the chromatin of these cells. Lysates of these cells were tested for their ability to bind to a DNA-cellulose column. Bound proteins were eluted with a step gradient of increasing KCl concentrations, and eluant fractions were then subjected to immunoblot analysis using isotype-specific antibodies to the alpha and beta I isotypes of PKC. DNA binding was detected for the PKC beta I isotype, which is present in the nucleus, but not for the more abundant PKC alpha isotype, which resides primarily in the cytoplasm. These results demonstrate that PKC can associate with DNA, and that this association is isotype specific in Friend erythroleukemia cells.
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PMID:Protein kinase C beta from Friend erythroleukemia cells is associated with chromatin and DNA. 856 55

Using differential display polymerase chain reaction, early growth response gene alpha (EGR alpha) was first isolated as a 291-base pair 3'-cDNA clone, which was highly expressed in the androgen-independent prostate carcinoma cell lines PC3 and DU145, as compared with the androgen-responsive prostate carcinoma cell line LNCaP. Full length cloning of the EGR alpha coding region revealed that EGR alpha was a new member of an important subfamily of nuclear zinc finger transcription factors (others members e.g. Sp1, EGR-2, and Wilms' tumor gene). Moreover, it was observed that EGR alpha, as with most Sp1 subfamily members, was conserved between mammalian species ranging from human to rabbit. Two hormones important for prostate development and differentiation were found to be potent regulators of EGR alpha mRNA expression. Androgens were observed to induce a down-regulation of EGR alpha mRNA expression (70% in 72 h), while epidermal growth factor induced a rapid transient up-regulation (6-fold in 100 min). The up-regulation was controlled at the transcriptional level and effectively blocked by staurosporine (which suggests the involvement of the protein kinase C pathway). Functional analysis demonstrated that EGR alpha could bind to, and stimulate transcription from, a basic transcription element (BTE) consensus sequence on DNA (BTE is a transcription-modulating sequence in the promoter region of some cytochrome P450 family members). Furthermore, in stage-synchronized prostate cells, EGR alpha mRNA was highly expressed in the early G1 phase of the cell cycle, similar to c-fos mRNA expression. These results indicated that the zinc finger transcription factor EGR alpha seems to play a role in cell cycle regulation.
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PMID:Characterization of an early growth response gene, which encodes a zinc finger transcription factor, potentially involved in cell cycle regulation. 858 37

Urea, in concentrations unique to the renal medulla, increases transcription and protein expression of several immediate-early genes (IEGs) including the zinc finger-containing transcription factor, Egr-1. In the present study, the proximal 1.2 kb of the murine Egr-1 5' -flanking sequence conferred urea-responsiveness to a heterologous luciferase reporter gene when transiently transfected into renal medullary mIMCD3 cells,and this effect was comparable with that of the extremely potent immediate-early gene inducer, O-tetradecanoylphorbol 13-acetate (TPA). Urea inducibility of Egr-1 expression was protein kinase C (PKC)-dependent because staurosporine and calphostin C abrogated the urea effect, and down-regulation of PHC through chronic TPa treatment inhibited both urea-inducible Egr-1 protein expression and gene transcription. In addition, hyperosmotic urea increased inositol 1,4,5-trisphosphate (IP3) release from mIMCD3 cells and induced tyrosine phosphorylation of the receptor tyrosine kinase-specific phospholipase C (PLC) isoform, PLC-gamma. Importantly, urea-inducible Egr-1 expression was strongly genistein-sensitive, to a much greater extent than the comparable TPA-inducible Egr-1 expression. These data suggest that urea-inducible Egr-1 expression is a consequence of sequential PLC-gamma activation, IP3 release, and PKC activation. Urea-inducible PLC-gamma activation, in conjunction with the genistein-sensitivity of urea-inducible Egr-1 expression suggest the possibility of a cell surface or cytoplasmic urea-sensing receptor tyrosine kinase.
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PMID:Urea signaling in cultured murine inner medullary collecting duct (mIMCD3) cells involves protein kinase C, inositol 1,4,5-trisphosphate (IP3), and a putative receptor tyrosine kinase. 862 72

Diacylglycerol (DAG) is a second messenger that activates protein kinase C and also occupies a central role in phospholipid biosynthesis. Conversion of DAG to phosphatidic acid by DAG kinase regulates the amount of DAG and the route it takes. We used degenerate primers to amplify polymerase chain reaction products from cDNA derived from human endothelial cells. A product with a novel sequence was identified and used to clone a 2.6-kilobase cDNA from an endothelial cell library. When transfected with a truncated version of this cDNA, COS-7 cells had a marked increase in DAG kinase activity, which demonstrated clear selectivity for arachidonoyl-containing species of diacylglycerol. The open reading frame of this clone has 567 residues with a predicted protein of 64 kDa. This enzyme, which we designated DGK epsilon, has two distinctive zinc finger-like structures in its N-terminal region, but does not contain the E-F hand motifs found in several other mammalian DGKs. The catalytic domain of DGK epsilon, which is related to other DGKs, contains two ATP-binding motifs. Northern blotting demonstrated that DGK epsilon is expressed predominantly in testis. This unique diacylglycerol kinase may terminate signals transmitted through arachidonoyl-DAG or may contribute to the synthesis of phospholipids with defined fatty acid composition.
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PMID:Molecular cloning of a novel human diacylglycerol kinase highly selective for arachidonate-containing substrates. 862 89

Subcellular redistribution (translocation) was initiated by treatment of NIH 3T3 cells overexpressing different epitope-tagged fragments of PKC epsilon with PMA, and was analyzed by immunocytochemistry. The PMA-induced translocation of holo PKC epsilon, as well as fragments epsilon 2 (zinc finger domain + pseudosubstrate domain) and epsilon 7 (zinc finger domain + hinge region) from the Golgi to the plasma membrane was rapid (<10 min), while translocation of fragment epsilon 3 (zinc finger domain) was much slower (30-60 min). These results, combined with results of studies carried out at 20 degrees C to inhibit exocytotic vesicle traffic, indicated that PMA-induced translocation from the Golgi to the plasma membrane may proceed by two distinct mechanisms: a rapid, vesicle independent process noted with holo PKC epsilon (which requires the presence of the pseudosubstrate and/or hinge regions), and a slow, vesicle-dependent pathway observed with the zinc finger fragment.
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PMID:Influence of various domains of protein kinase C epsilon on its PMA-induced translocation from the Golgi to the plasma membrane. 866 Mar 86


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