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)

We have previously described that spatial and temporal changes in the organization of vimentin that are correlated with protein kinase C (PKC)-induced phosphorylation of vimentin can be detected with the mouse monoclonal antibody B3 in cultures of amoeboid microglia [Ciesielski-Treska et al. (1991) J. Neurosci. Res. 29, 362-378]. The antibodies were generated to native form of vimentin-containing filaments and antibody B3 reveals a restricted immunostaining of vimentin in glial cells from human, rat and mouse origin. In the present study we show the distribution of epitope B3 analyzed by immunofluorescence within defined populations of rat glial cells. Relatively high immunoreactivity was found in Type 1 astrocytes, Type 2 astrocytes and oligodendrocytes had low immunoreactivity. Although the results suggested that in Type 1 astrocytes the phosphorylated epitope is prominent, its phosphorylation was not found to be cell cycle-dependent, and appeared unrelated to the organizational changes of intermediate filaments associated with the morphological conversion of polygonal to stellate astrocytes. As expected, the immunofluorescence was increased by exposition of astrocyte cultures to an activator of PKC, confirming our previous conclusion that the immunoreactivity of the epitope B3 depends on PKC-mediated phosphorylation. In addition, the finding that the immunofluorescence of vimentin was more homogeneous in quiescent, serum-deprived astrocytes and also in astrocytes exposed to an inhibitor of protein synthesis, cycloheximide, may suggest that phosphorylation of the epitope B3 depends on a protein factor present in fetal calf serum. The immunofluorescence studies on cultures enriched in Type 2 astrocytes and in oligodendrocytes indicate that the epitope B3 is hypophosphorylated in glial cells of this lineage and becomes dephosphorylated after terminal differentiation of oligodendrocytes. These observations suggest that in Type 2 astrocytes and in oligodendrocytes the low level of phosphorylation of vimentin could be related to the down regulation in vimentin expression.
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PMID:Differences in vimentin distribution in glial cells in culture revealed with an antibody against a phosphorylated epitope. 751 Sep 23

We have previously shown that fibroblasts from patients with cystic fibrosis (CF) display a higher response to 4 beta-phorbol 12-myristate 13-acetate (PMA) than control fibroblasts for stimulation of both protein kinase C (PKC) cytosol-to-membrane translocation and glycoconjugate secretion. In this study we took advantage of these cells with differential responsiveness to PMA to investigate the endogenous substrate(s) involved in PKC stimulation of glycoconjugate secretion after verification of cystic fibrosis transmembrane conductance regulator gene expression in control and CF fibroblasts. We show that a 57-kDa protein that was associated with cytoskeleton and was identified as vimentin by immunoblotting emerged as a good candidate for mediating PKC stimulation of glycoconjugate secretion. 1) Its phosphorylation by PMA was abolished by PKC inhibition or depletion. 2) In both control and CF fibroblasts, the PMA-induced increase in its phosphorylation preceded the phorbol ester stimulation of glycoconjugate secretion. 3) For both processes, the concentration-response curves were superimposable, with higher maximal levels for CF fibroblasts relative to controls. 4) PMA-stimulated 57-kDa protein phosphorylation, like PMA-stimulated glycoconjugate secretion, was significantly increased by Ca2+. 5) Increased PMA phosphorylation of the 57-kDa protein as a result of okadaic acid inhibition of intracellular phosphatases was reflected in increased PMA stimulation of glycoconjugate secretion. In conclusion, 1) PMA phosphorylation of a cytoskeletal 57-kDa protein, identified as vimentin, appears to be an intermediate step in PKC stimulation of constitutive glycoconjugate secretion in human skin fibroblasts; and 2) this process is impaired in CF disease.
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PMID:Phosphorylation of vimentin is an intermediate step in protein kinase C-mediated glycoconjugate secretion. 751 22

Histamine release from mast cells is intimately related with degranulation. When basic histamine releasers such as compound 48/80 were applied extracellularly to isolated rat mast cells by means of microelectrophoresis, localized degranulation was evoked near the tip of micropipet in a few seconds. In response to the second electrophoretic application at the opposite side of the membrane of the same mast cells, similar local degranulation was induced. This fact clearly indicates that local degranulation does not damage mast cells to the extent of blocking following degranulation. As intracellular electrophoretic application of compound 48/80 caused a swelling of mast cell, although no degranulation was elicited. When antigen-antibody reaction was induced in a single rat mesentery mast cell by means of microelectrophoresis, the application of antigen was made extracellularly or intracellularly. At the site of extracellular application, localized degranulation and histamine release were evoked. Histamine release was evidenced by the disappearance of histamine fluorescence in the degranulated area. Neither degranulation nor histamine release was induced by intracellular application of antigen. In freeze-fracture electronmicroscopy of the resting rat mast cells, intra-membrane particles (IMPs) were randomly distributed on the plasma membrane. When sensitized cells were exposed to antigen, IMPs were markedly dispersed so as to surround bulging regions of the membrane elicited by swollen granules. As the particles gathered at the periphery of the bulges, actually no particle was seen on the protuberant region. When rat mast cells loaded with quin 2 were exposed compound 48/80 in a Ca-free medium, a marked increase of quin 2 fluorescence was noticed, indicating that Ca2+ was released from intracellular Ca store. The binding of 45Ca was at its peak in the fractions where the highest activity of glucose-6-phosphatase, a marker enzyme for the endoplasmic reticulum, when organelles of mast cells were fractionated. This may indicate that intracellular Ca store is endoplasmic reticulum. It has been shown that microfilaments, and microtubules play some important roles in histamine release from rat mast cells. When permeabilized mast cells were stimulated with Ca2+, a translocation of protein kinase C from cytosol to membrane fraction was observed. This leads to phosphorylation of vimentin, one of intermediate filaments. In membrane skeletons of rat mast cells, alpha- and beta-fodrin, ankyrin and actin were found by means of western blotting analysis. It was supposed that membrane skeleton may be useful as a barrier between the plasma membrane and the granule membrane.
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PMID:[Development of the research in the field of histamine release]. 751 63

It has been recognized that cytoskeletons play some important roles in the histamine release from mast cells. We previously reported the role of microfilaments and microtubules in the histamine release from mast cells, and in the present study, the roles of intermediate filaments and membrane skeletons were investigated. When permeabilized mast cells were stimulated with Ca2+, a translocation of protein kinase C from cytosol to the membrane fraction was observed. This lead to the phosphorylation of vimentin, one of the component proteins of the intermediate filaments. Phosphorylation of vimentin induced disruption of intermediate filaments and resulted in an increase in the mobility of granules. This may be favorable for the initiation of degranulation. In the membrane skeletons of rat mast cells, alpha- and beta-fodrin, ankyrin and actin were found. Changes in the distribution of the fodrin network were elicited by antigen-antibody reaction. It is suggested that membrane skeletons may act as a barrier between the plasma membrane and the granule membrane and that the changes in the distribution of membrane skeletons may facilitate the initiation of the fusion of the plasma membrane and granular membrane.
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PMID:Molecular mechanism of histamine release: the role of intermediate filaments and membrane skeletons. 753 24

Possible differentiation mechanisms were investigated in a glioblastoma multiform cell line (GL15) presenting an undifferentiated phenotype with weak glial fibrillary acidic protein (GFAP) and strong vimentin (VIM) expression. Serum-free conditions induced time-dependent increases of GFAP-mRNA and GFAP protein levels, associated with a process-bearing astrocytic morphology. Activation of protein kinase C (PKC) by tumor promoter phorbol 12-myrystate 13-acetate (PMA) induced a rapid morphological differentiation and a decrease in GFAP mRNA, whereas the GFAP level remained unchanged. Such parameters were shown to characterize a physiological differentiation stage in astroglial cultures. Treatment of process-bearing GL15 cells with dibutyryl cyclic AMP (dbcAMP), a protein kinase A (PKA) activator, induced a time-dependent decrease in the GFAP mRNA and GFAP protein levels and reverted morphological changes induced by serum-free conditions. Neither PMA nor dbcAMP influenced the VIM mRNA expression. In GL15 cells, PKC and PKA activation have opposite effects. Understanding the role of these kinases in malignant transformation and in the in vitro differentiation process is of both basic and clinical interest.
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PMID:PKA and PKC activation induces opposite glial fibrillary acidic protein (GFAP) expression and morphology changes in a glioblastoma multiform cell line of clonal origin. 754 74

We have recently shown that expression of specific protein kinase C (PKC) isoforms correlates with cell fate in neural chicken embryo cells. Therefore we investigated the effects of PKC activation by phorbol esters on acquisition of the astrocytic phenotype, using cultured embryonic cortical astrocytes, derived from 15-day-old chick embryos (E15CH), as a model. Short term treatment with the phorbol ester 12-tetradecanoylphorbol-13-acetate (TPA), which activates PKC-alpha/beta in E15CH, caused association of PKC with the cytoskeleton. In vitro kinase assays of cytoskeleton-associated PKC demonstrated phosphorylation of many cytoskeletal proteins. Phosphorylation was blocked by protein kinase inhibitors (H8), and enhanced by phosphatase inhibitors (calyculin A). Among these PKC substrates, a most prominent 60-kDa protein was identified as vimentin. Assembly of vimentin into the cytoskeleton depends on cell type and state of differentiation. To establish that TPA (PKC) regulates assembly of vimentin into the cytoskeleton of astrocytes, we used pulse-chase (20/5 min) labeling with [35S]methionine, and immunoprecipitations with an anti-vimentin mAb from extractable and cytoskeletal fractions. These studies revealed that 20 min treatment with TPA leads to a 3-fold increase in the rate of newly synthesized full-length vimentin assembly (posttranslational assembly). Furthermore, TPA increased cotranslational assembly of vimentin. The protein kinase A activator forskolin, did not have such effects on vimentin assembly. Long-term TPA treatment, which correlates with a prolonged phospholipase D (PLD) activation, was mitogenic and caused dramatic changes in the morphology of astrocytes. In addition these fibrous, polarized astrocytes had decreased activity of the astrocyte specific enzyme, glutamine synthetase, but had increased abundance of vimentin protein. These studies provide biochemical evidence on acquisition of a different astrocytic phenotype after activation of the PKC/PLD pathway, in the chick embryo. Therefore PKC and PLD activation is pivotal for the acquisition and maintenance of phenotypes in chick embryonic astrocytes.
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PMID:Phorbol esters and PKC signaling regulate proliferation, vimentin cytoskeleton assembly and glutamine synthetase activity of chick embryo cerebrum astrocytes in culture. 755 27

Ataxia-telangiectasia (AT) is an autosomal recessive human genetic disease characterized by immunological, neurological, and developmental defects and an increased risk of cancer. Cells from individuals with AT show sensitivity to ionizing radiation, elevated recombination, cell cycle abnormalities, and aberrant cytoskeletal organization. The molecular basis of the defect is unknown. A candidate AT gene (ATDC) was isolated on the basis of its ability to complement the ionizing radiation sensitivity of AT group D fibroblasts. Whether ATDC is mutated in any AT patients is not known. We have found that the ATDC protein physically interacts with the intermediate-filament protein vimentin, which is a protein kinase C substrate and colocalizing protein, and with an inhibitor of protein kinase C, hPKCI-1. Indirect immunofluorescence analysis of cultured cells transfected with a plasmid encoding an epitope-tagged ATDC protein localizes the protein to vimentin filaments. We suggest that the ATDC and hPKCI-1 proteins may be components of a signal transduction pathway that is induced by ionizing radiation and mediated by protein kinase C.
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PMID:The product of the ataxia-telangiectasia group D complementing gene, ATDC, interacts with a protein kinase C substrate and inhibitor. 764 99

We previously reported that a lipoxygenase metabolite of arachidonic acid, 12(S)-hydroxyeicosatetraenoic acid [12(S)-HETE], induced large vessel endothelial cell (EC) retraction and increased tumor cell adhesion to exposed extracellular matrix (Honn et al., FASEB J. 3, 2285-2293, 1989). Here, we present evidence that 12(S)-HETE induces the retraction of microvascular ECs in a time- and concentration-dependent manner. The EC retraction was observed 15 min after 12(S)-HETE treatment and reached a peak level between 1 and 2 h. The monolayer reformed by 24 h. Silver staining and "gap-FRAP" experiments suggest that 12(S)-HETE altered the normally apposed cell junctions and impaired gap junction-mediated cell-cell communication. It appears that the 12(S)-HETE effect was mediated by cytoskeletal alteration. The first observed alteration in EC cytoskeleton following 12(S)-HETE stimulation is vimentin bundling, followed by the rearrangement and disruption of vinculin-containing adhesion plaques and/or simultaneous redistribution of alpha-actinin and disruption of spectrin. These changes are accompanied by progressive microfilament dissolution. During the same time interval, alpha-actinin is mobilized to the cell periphery at cell "ruffles." However, 12(S)-HETE showed little or no effects on actin-binding proteins filamin and tropomyosin or on microtubules. 12(S)-HETE effects on these cytoskeletal elements were fully reversible by 24 h and appeared to be mediated through enhancing protein phosphorylation. Following 12(S)-HETE (0.1 microM) treatment increased phosphorylation of proteins that comigrated with myosin light chain (20 kDa), actin (42 kDa), and vimentin (57 kDa) were observed. The enhanced phosphorylation of these cytoskeletal proteins was confirmed by 2D gel analysis. The phosphorylation-promoting effect of 12(S)-HETE on cytoskeletal proteins could be totally abolished by calphostin C, partially inhibited by staurosporine, but was not influenced by N-[2-(methylamine)ethyl]-5-isoquinolinesilfonamide dihydrochloride (HS), suggesting that the 12(S)-HETE effect was mediated via protein kinase C. This was further substantiated by quantitative experiments demonstrating that calphostin C, but not H8, inhibited 12(S)-HETE-induced EC retraction.
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PMID:The lipoxygenase metabolite, 12(S)-HETE, induces a protein kinase C-dependent cytoskeletal rearrangement and retraction of microvascular endothelial cells. 768 15

The effects of the calcium ionophore, A23187, on human neutrophil activation were studied in relation to the signaling mechanism of cyclic guanosine monophosphate (cGMP)-dependent protein kinase (G-kinase). Immunocytochemistry demonstrated that G-kinase translocated from a diffuse localization in the cytoplasm to the cytoskeleton after stimulation with A23187. Over a period of 5 minutes, G-kinase was transiently colocalized with the intermediate filament protein, vimentin. At 3 minutes' stimulation with A23187, colocalization of G-kinase and vimentin was predominantly confined to filaments that extended into the uropod. The time of colocalization of G-kinase and vimentin was reduced in the A23187-stimulated cell from 3 minutes to 1 minute by 8-Br-cGMP. Coincident with colocalization was an increase in cGMP levels and transient phosphorylation of vimentin in adhered A23187-stimulated cells. Phosphorylation of vimentin was maximal after 3 minutes with A23187, and was essentially over at 5 minutes. The time of phosphorylation of vimentin was also reduced from 3 minutes to 1 minute when cells were preincubated with 8-Br-cGMP and then stimulated with A23187, which suggests that cyclic adenosine monophosphate (cAMP)-dependent protein kinase does not phosphorylate vimentin in A23187-treated neutrophils. Phosphorylation of vimentin was not observed in nonactivated cells treated only with 8-Br-cGMP. The presence of the protein kinase C inhibitors, staurosporine or H-7, did not inhibit vimentin phosphorylation in A23187-treated cells, which provides supportive data that protein kinase C is not the phosphorylating enzyme. These results suggest that vimentin and G-kinase are colocalized in a Ca(2+)-dependent manner in neutrophils, and that vimentin is transiently phosphorylated by G-kinase in response to the colocalization of the two proteins. The transient redistribution of compartmentalized G-kinase represents one type of neutrophil activation mechanism.
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PMID:Cyclic guanosine monophosphate-dependent protein kinase is targeted to intermediate filaments and phosphorylates vimentin in A23187-stimulated human neutrophils. 780 96

We conducted a study to investigate whether expression of the contractile proteins in cultured rat mesangial cells (MC) was associated with the cell cycle and protein kinase C (PKC). When growth-arrested MC were stimulated with 100 nM phorbol myristate acetate (PMA) for 24 hours, an increased expression of smooth muscle alpha-actin and vimentin was detected by immunocytochemistry. A proportion of the S- and G2/M-phase in MC was increased in accordance with the enhanced expression of contractile proteins on flow cytometry. Immunoblot analysis revealed that 100 nM PMA stimulated expression of alpha-actin and vimentin as a single band. These results indicate that expression of contractile proteins, such as alpha-actin and vimentin, is dependent on the cell cycle and PKC, suggesting a phenotypic change in which MC assume smooth muscle cell characteristics.
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PMID:[Association of cell cycle and protein kinase C with the expression of cytoskeletal protein in cultured rat mesangial cells]. 781 40


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