Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.13 (protein kinase C)
 49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The administration of 150 nM etoposide, an inhibitor of DNA topoisomerase II activity, decreased the proliferation and induced the differentiation of U937 human promonocytic cells, as determined by nitroblue tetrazolium reduction, surface accumulation of CD11b/CD18 and CD11c/CD18 integrins, and c-fms protooncogene expression. The expression of these differentiation markers started to be detected at 24 h of treatment. Etoposide caused little cell damage, as determined by trypan blue exclusion and by apoptotic-like DNA degradation, which was slightly initiated at 48 h. The treatment induced a transient increase in c-fos, c-jun, and jun B mRNA levels, with maximum values at 12 h, a transient increase in collagenase mRNA level, with maximum value at 48 h, and a progressive increase in vimentin and lamin A and C mRNAs. These changes were qualitatively similar to those produced by 12-O-tetradecanoylphorbol-13-acetate. Etoposide also caused a transient increase of total AP-1 binding activity, with maximum value at 12 h of treatment, as determined by gel retardation assays. The drug produced an early transient activation (3-6 h) of membrane-bound protein kinase C, followed by the later activation (48 h) of both the membrane and cytosolic enzyme. The protein kinase C inhibitors, sphinganine and 1-(5-isoquinolinylsulfonyl)-2-methylpiperazine (H7), attenuated the induction of differentiation markers by etoposide. These results suggest that protein kinase C and AP-1-dependent gene expression could be involved in myeloid cell differentiation by DNA topoisomerase II inhibitors.
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PMID:Etoposide-induced differentiation of U937 promonocytic cells: AP-1-dependent gene expression and protein kinase C activation. 781 32

1. We have previously shown that acute exposure to the HIV coat protein gp120 interferes with the beta-adrenergic regulation of astroglial and microglial cells (Levi et al., 1993). In particular, exposure to 100 pM gp120 for 30 min depressed the phosphorylation of vimentin and glial fibrillary acidic protein (GFAP) induced by isoproterenol in rat cortical astrocyte cultures. In the present study we have extended our analysis on the effects of gp120 on astroglial protein phosphorylation. 2. We found that chronic (3-day) treatment of the cells with 100 pM gp120 before exposure to isoproterenol was substantially more effective than acute treatment in depressing the stimulatory effect of the beta-adrenergic agonist on vimentin and GFAP phosphorylation. 3. Even after chronic treatment with gp120, no differences were found in the levels and solubility of these proteins. 4. Besides stimulating the phosphorylation of intermediate filament proteins, isoproterenol inhibited the incorporation of 32P into a soluble acidic protein of 80,000 M(r), which was only minimally present in Triton X-100-insoluble extracts. 5. Treatment of astrocytes with a phorbol ester or exposure to 3H-myristic acid indicated that the acidic 80,000 M(r) protein is a substrate for protein kinase C (PKC) and is myristoylated, thus suggesting that it is related to the MARCKS family of PKC substrates. 6. Acute (30-min) treatment with 100 pM gp120 totally prevented the inhibitory effect of isoproterenol on the phosphorylation of the 80,000 M(r) MARCKS-like protein. 7. Our studies corroborate the hypothesis that viral components may contribute to the neuropathological changes observed in AIDS through the alteration of signal transduction systems in glial cells.
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PMID:Human immunodeficiency virus protein gp120 interferes with beta-adrenergic receptor-mediated protein phosphorylation in cultured rat cortical astrocytes. 784 74

Acquired resistance to chemotherapeutic drugs by tumor cells is an important obstacle to effective therapy of human malignancy. These resistance cell lines originated from human or rodent have been characterized by increased expression of MDR (Multidrug-resistance) gene and P-glycoprotein which plays as efflux pump of drugs from cells. These multidrug-resistance sublines also have been reported increased activities of protein kinases and glutathione S-transferase-pi. Although there have been extensive biophysical and biochemical characterization of the differences between parental lines and MDR tumor cell sublines, morphologic observations have been limited. In this study, filamentous cytoskeletons which involve many biological phenomena such as maintenance of cell morphology, mitosis, cellular movement, transport, and adhesion, were observed by confocal laser microscopy. To compare the expression of each cytoskeletons, fluorescent intensities of cells stained for each cytoskeletons were measured by confocal laser microscopic system. Utilizing this methodology, higher microtubular expression was observed in HL-60/ADR and K562/ADR than in their parental lines, but no significant differences of actin and vimentin were observed. Phosphorylation by protein kinases has been established as a key factor in the regulation of cytoskeletal function. But little is known about the role of protein phosphorylation in cytoskeletal function. Since increased activities of PKC and PTK were detected in HL-60/ADR, the effect of PKC inhibitor, staurosporine (STR), or PTK inhibitor, genistein (GNS), on cell growth was detected. STR and GNS reduced the resistance to Adriamycin in HL-60/ADR. Furthermore, STR and GNS disrupted the filamentous structure of microtubules in HL-60/ADR, and suppressed the expression of microtubules to 37%, and 49%, respectively. In contrast, PKC activator, phorbol ester (TPA), caused stronger microtubular assembling in HL-60/ADR, and increased the expression of microtubules to 134%. Resulting from this study, it is likely that acquired MDR of HL-60 and K562 was associated with increased expression of microtubules, and microtubular assembling or disassembling was considered to be regulated in part by PKC and PTK.
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PMID:[Features of filamentous cytoskeletons in acquired multidrug-resistance of HL-60 human leukemia cell line]. 790 88

Protein kinase C plays an important role in regulation of the cytoskeleton. We found that protein kinase C activity is associated with the retinal cytoskeleton, and that it catalyses the stoichiometric phosphorylation of two cytoskeletal proteins, with apparent molecular masses of 56 kDa and 100 kDa. The 56-kDa substrate was identified as vimentin on the basis of its apparent molecular mass, pI, solubility, immunoreactivity, pattern of proteolysis by Lys-C and a partial amino acid sequence. Immunomicroscopy was consistent with previous reports that in the retina vimentin has the unusual property of being present in neuronal cells--horizontal cells--as well as non-neuronal cells. The characteristics of protein kinase C phosphorylation of vimentin that was enriched in neuronal vimentin were determined. Hyperactivation of protein kinase C by treatment of retinas with phorbol myristate acetate resulted in the phosphorylation of vimentin in situ, indicating that the phosphorylation is physiologically relevant. In vitro, purified retinal protein kinase C catalysed the incorporation of nearly 2 mol phosphate per mole of monomeric vimentin. The phosphorylation was highly dependent on the presence of phosphatidylserine. Thus, protein kinase C functions in the retinal cytoskeleton, where a major role is in the modification of vimentin. The characterization of the phosphorylation of outer retinal vimentin by protein kinase C provides a basis for further studies on the regulation and function of this cytoskeletal element.
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PMID:Protein kinase C association with the retinal cytoskeleton and phosphorylation of vimentin. 792 14

Second-messenger systems have been implicated to transmit mechanical stimulation into cellular signals; however, there is no information on how mechanical stimulation is affected by such systemic factors as parathyroid hormone (PTH). Regulation of adenylyl cyclase and phosphatidylinositol pathways in rat dentoalveolar bone cells by mechanical strain and PTH was investigated. Two different cell populations were isolated after sequential enzyme digestions from dentoalveolar bone (group I and group II) to study potential differences in response. Mechanical strain was applied with 20 kPa of vacuum intermittently at 0.05 Hz for periods of 0.5, 1, 5, 10, and 30 minutes and 1, 3, and 7 days using the Flexercell system. Levels of cAMP, measured by RIA, and levels of inositol 1,4,5-triphosphate (IP3) and protein kinase C activity (PKC), measured by assay systems, increased with mechanical strain. When PTH was added to the cells, there was a significant increase in levels of all the intracellular signals, which appeared to potentiate the response to mechanical strain. IP3 levels (0.5 minute) peaked before those of PKC activity (5 minutes), which in turn peaked before those of cAMP (10 minutes). Group II cells showed higher levels of cAMP and IP3 than the group I cells. This suggests that the former may ultimately play the predominant roles in skeletal remodeling in response to strain. Immunolocalization of the cytoskeleton proteins vimentin and alpha-actinin, focal contact protein vinculin, and PKC showed a marked difference between strained and nonstrained cells. However, the addition of PTH did not cause any significant effect in cytoskeleton reorganization. Staining of PKC and vimentin, alpha-actinin, and vinculin suggests that PKC participates actively in the transduction of mechanical signals to the cell through focal adhesions and the cytoskeleton, although only PKC seemed to change with short time periods of strain. In conclusion, dentoalveolar osteoblasts responded to mechanical strain initially through increases in levels of IP3, PKC activity, and later cAMP, and this response was potentiated when PTH was applied together with mechanical strain.
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PMID:Stimulation of signal transduction pathways in osteoblasts by mechanical strain potentiated by parathyroid hormone. 794 69

Purified assembly-competent vimentin, an intermediate filament protein, was obtained from bovine lens in this study. The effects of withangulatin A on vimentin assembly with or without phosphorylation were examined by negative-stain electron microscopy. Soluble tetrameric vimentin was assembled into irregular fibrils with lateral associations or short filaments after pretreatment with 50 or 100 microM withangulatin A, respectively. Incubation of assembled vimentin filaments with withangulatin A at 50 or 100 microM resulted in the formation of aggregates, and the degree of aggregation was concentration dependent. The appearance of vimentin filaments was slightly altered after treatment with cAMP-dependent protein kinase or protein kinase C; however, phosphorylation of filamentous vimentin by the protein kinases in the presence of withangulatin A resulted in higher degrees of aggregation of the filaments, compared with those treated only with the drug. Moreover, the level of phosphorylation of filamentous vimentin by the protein kinases was augmented in the presence of withangulatin A. Experimental results indicated that withangulatin A directly and specifically affects the conformation of the vimentin molecules, thereby resulting in alterations in assembly behavior and reactivity toward cAMP-dependent protein kinase and protein kinase C. The data observed further imply that withangulatin A, which directly causes aggregation of vimentin filaments, is a vimentin intermediate filament-targeting drug.
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PMID:Induction of aggregation and augmentation of protein kinase-mediated phosphorylation of purified vimentin intermediate filaments by withangulatin A. 796 40

To investigate the role of intermediate filament (IF) protein phosphorylation by cdc2 kinase during mitosis, we developed a monoclonal antibody 4A4 recognizing Ser55-phosphorylated vimentin. Western blotting indicated that this antibody reacted with vimentin phosphorylated by cdc2 kinase but not with non-phosphorylated vimentin or with vimentin phosphorylated by other kinases such as cAMP-dependent protein kinase, protein kinase C, or Ca(2+)-calmodulin-dependent protein kinase II. Immunofluorescence and immunoelectron microscopy showed that vimentin Ser55 residues distributed in the entire cytoplasmic vimentin filament system are phosphorylated when the cells enter mitosis and dephosphorylated in cytokinesis. All cell lines examined showed a similar appearance of immunoreactivity with antibody 4A4. Fractionation of mitotic cell extracts on Mono-Q Sepharose revealed a single peak of vimentin Ser55 kinase activity, and the anti-p34cdc2 antibody reacted with the 34 kDa band in the kinase containing fractions. Vimentin Ser55 kinase activities were nil in the interphase cell extract. Immunofluorescent evidence using antibody 4A4 and biochemical analysis using vimentin Ser55 peptide showed that the degree of disassembly of vimentin filament of various cell types at early mitotic phase correlated well with the amount of mitotically activated cdc2 kinase.
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PMID:Visualization and function of vimentin phosphorylation by cdc2 kinase during mitosis. 798 50

Retinas from embryonic rabbits at day E15 were transplanted to the subretinal space in adult rabbits. After survival times between 7 and 193 days, the rabbits were killed, and the transplants were processed for immunohistochemistry. The results show that subretinal transplants from embryonic rabbit retinas develop many, if not all, retinal neuronal types. The cells show approximately normal morphology and express a variety of cell-type-specific markers: photoreceptor cells express visual pigment proteins as identified by antibodies against rhodopsin (R2-15), color-specific cone pigments (COS-1, OS-2) and the cone specific antigen 50-1B11, rod bipolar cells express PKC, horizontal cells HPC-1 antigen and neurofilament 160 kDa, amacrine cells HPC-1 antigen, GABA and neurofilament 160 kDa, and glial cells express vimentin and glial fibrillary acidic protein. The high degree of rosette formation seen in many young grafts, diminishes with time; many transplant cells disappear, and the remaining cells present a less prominent formation of rosettes.
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PMID:Development of cell markers in subretinal rabbit retinal transplants. 817 53

The fatty acid 12(S)-HETE may be a new second messenger capable of activating PKC. In tumor cells 12(S)-HETE stimulates cytoskeleton-dependent cellular responses such as adhesion and spreading. Analysis of 12(S)-HETE effects on B16a melanoma cell cytoskeleton revealed reversible rearrangement of microtubules, microfilaments, the actin-binding proteins, vinculin, myosin heavy (MHC) and light chains (MLC), as well as bundling of vimentin intermediate filaments. The alterations in microfilaments and intermediate filaments occurred very rapidly, i.e., 5 min after exposure of tumor cells to 12(S)-HETE. The 12(S)-HETE-induced cytoskeletal alterations were accompanied by centrifugal organelle-translocation. Interestingly, MLC exhibited clear association with the cytoplasmic organelles. Biochemical analysis of the 12(S)-HETE effect indicated a PKC-mediated reversible hyperphosphorylation of MLC, vimentin, and a 130 kD cytoskeletal-associated protein. Optimal effects were obtained after 5 min treatment with 12(S)-HETE at 0.1 microM concentration. 12(S)-HETE pretreatment induced tumor cell spreading on a fibronectin matrix which required the intactness of all three major cytoskeletal components. The spreading process was dependent upon the activity of PKC. Our data suggest that 12(S)-HETE is a physiological stimulant of PKC. Further, it induces rearrangement of the cytoskeleton of tumor cells in interphase resulting in the stimulation of cytoskeleton-dependent cell activity such as spreading.
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PMID:PKC mediates 12(S)-HETE-induced cytoskeletal rearrangement in B16a melanoma cells. 822 7

Tumor cell interaction with endothelial cells is a crucial step leading to organ-selective metastasis. Adhesion of murine B16 amelanotic melanoma cells (B16a) to murine microvascular endothelial cells (CD3) was enhanced, in a dose- and time-dependent manner, by pretreating CD3 cells with 12(S)-hydroperoxyeicosatetraenoic acid [i.e., 12(S)-HETE], a 12-lipoxygenase metabolite of arachidonic acid. The metabolic precursor of 12(S)-HETE, 12-HPETE (12-hydroperoxyeicosatetraenoic acid) also enhanced B16a cell adhesion to CD3 monolayers, whereas other lipoxygenase products, i.e., 5(S), 11(S), and 15(S)-HETEs were ineffective. 12(S)-HETE-enhanced tumor cell adhesion was blocked by treating endothelial cells with antibodies against the alpha v beta 3 complex or against individual subunits but not with antibodies against alpha 5 beta 1. In contrast, neither of these two integrins appeared to be involved in tumor cell adhesion to unstimulated endothelium. Flow cytometric analysis, immunofluorescent labeling, and image analysis indicated that 12(S)-HETE induced a time- and dose-dependent increase in the surface expression of alpha v beta 3 but not alpha 5 beta 1 on CD3 cells. The increased surface expression of alpha v beta 3 on endothelial cells did not result from an increased transcription or translation of alpha v beta 3 message as confirmed by quantitative reverse transcription-polymerase chain reaction, Northern blotting, and quantitative Western blotting. Instead, subcellular fractionation studies revealed an increased translocation of alpha v beta 3 integrins from the cytosolic pool to the membrane fractions. Pretreatment of endothelial cells with several cytoskeleton-disrupting agents (i.e., cycloheximide or acrylamide to disrupt intermediate filament vimentin, cytochalasin D to disrupt microfilaments, colchicine or Nocodazole to disrupt microtubules) abolished the 12(S)-HETE-enhanced alpha v beta 3 surface expression as well as tumor cell adhesion to endothelial cells. Also, pretreatment of CD3 cells with protein kinase C inhibitor calphostin C, but not with protein kinase A inhibitor H8, blocked 12(S)-HETE-enhanced alpha v beta 3 surface expression and tumor cell adhesion. Collectively, these results suggest that eicosanoid 12(S)-HETE modulates tumor cell interaction with endothelium via protein kinase C- and cytoskeleton-dependent up-regulation of the surface expression of alpha v beta 3 integrin.
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PMID:Activation of microvascular endothelium by eicosanoid 12(S)-hydroxyeicosatetraenoic acid leads to enhanced tumor cell adhesion via up-regulation of surface expression of alpha v beta 3 integrin: a posttranscriptional, protein kinase C- and cytoskeleton-dependent process. 831 70


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