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)

.5 Gy prenatal neutron irradiation at the 17 day of gestation resulted in activation of gene expression in brain. Elevated level of neuronal (GAP-43, NCAM, protein kinase C, calmodulin) and protooncogene (c-foc, c-jun, c-mas) gene transcripts in brain of 2-4 weeks old rats well correlated both with brain maturation in normal animals and development of brain weight deficiency in the irradiated rats. Activation of gene expression appears to be a compensatory response of surviving brain cells to irradiation. Suppression of the gene activity in brain of 18 months old rats correlated with impairment of brain functions at later periods after prenatal irradiation.
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PMID:[Effect of prenatal neutron irradiation on gene expression in the developing rat brain]. 172 39

Differentiation of bone-marrow-derived precursor cells into mature mouse T lymphocytes occurs in the thymus and involves sequential interactions with MHC-positive hemopoietic and epithelial stromal cells. To study the in vitro molecular mechanisms at play during the lympho-epithelial cell adhesion, we derived thymic stromal cell lines which were shown to possess cytokeratin filaments and tight junctions. These mouse thymic epithelial (MTE) cell lines did not express the classical hemopoietic stromal cell surface markers (i.e. LFA-1, Mac-1, and CD45) but expressed ICAM-1, NCAM, J11d, CD44, and MHC molecules. A quantitative cell adhesion assay was used to evaluate the interaction of various lymphoid cell subsets with MTE cells. Two cell interaction patterns could be defined: first, a rapid adhesion of a fraction of CD4+CD8+ and of a few CD4-CD8- immature thymocytes to MTE cells was observed at 4 degrees C. The CD8 molecule was shown to be partially involved in this initial contact. The strength of adhesion between MTE cells and distinct thymocyte subsets was evaluated and found to be maximal with neonatal thymocytes. Second, a temperature-dependent adhesion step characterized by a rapid and active stabilization of the interaction of MTE cells with 20% of CD4+CD8+CD3low thymocytes was seen, followed by a more progressive de-adhesion step. This active process of engagement was highly LFA-1-dependent, involved the CD4 and CD8 molecules, and required protein kinase C activation and cytoskeletal integrity. The results are consistent with the involvement of LFA-1 in a transient and regulated cell adhesion under the control of the TCR-CD3 complex that progressively appears on maturing cells. This phenomenon might contribute to the selection of a subset of immature thymocytes by epithelial cells occurring during the process of maturation of these cells.
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PMID:Mouse thymic epithelial cell lines interact with and select a CD3lowCD4+CD8+ thymocyte subset through an LFA-1-dependent adhesion--de-adhesion mechanism. 215 May 94

CaVPT, a target protein of Ca2(+)-vector from amphioxus muscle, was purified from its complex with CaVP after dissociation by 6 M urea and chromatographies on DEAE-cellulose and calmodulin-Sepharose. The amino acid sequence of CaVPT has been determined. The protein is composed of 243 residues and possesses an unblocked N terminus. Its molecular weight is 26,621, distinctly lower than the apparent molecular weight deduced from electrophoresis on sodium dodecyl sulfate-containing gels. CaVPT contains a potential Asn-linked glycosylation site, four potential protein kinase C phosphorylation sites, and two casein kinase II phosphorylation sites. From the sequence the following three particular domains can be inferred: a collagen-like N-terminal segment, rich in Pro and Ala, that resembles the N-terminal segment of skeletal muscle myosin light chain kinase; next to it (from residues 33 to 50) is located a strongly amphiphilic and basic alpha-helical segment which likely binds the calcium vector protein since a proteolytic cut after Arg50, occurring occasionally during the purification of CaVPT, impairs the binding to immobilized calmodulin. This segment is followed by two immunoglobulin folds. The two immunoglobulin folds typically belong to the C2 subclass and particularly resemble those present in the neural cell surface adhesion molecules NCAM, L1, F11, MAG, TAG-1, fasciclin II, and amalgam. Recently, the presence of immunoglobulin folds of this type has been reported in some intracellular muscular proteins, namely in smooth muscle myosin light chain kinase, striated muscle C protein and titin, as well as in the nematode 600-kDa protein twitchin. From this structural study we can formulate the working hypothesis that CaVPT acts on the structure of the thick filament in muscle or regulates, perhaps via other immunoglobulin fold-containing proteins.
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PMID:Primary structure of the target of calcium vector protein of amphioxus. 224 56

Muscle development involves a series of complex cell-cell interactions that are mediated, at least in part, by several different cell adhesion molecules. Previous work from this lab showed that the different isoforms of NCAM and its level of polysialylation are developmentally regulated during chick myogenesis in vivo and that this regulation is important for normal muscle development. Using developing chick secondary myotubes grown in culture, we show here that both the polysialylation of NCAM and the developmental switch in isoform expression are regulated by activity and that Ca2+ entry through voltage-gated channels and the subsequent activation of protein kinase C are required for the developmental changes in NCAM isoform synthesis. Specifically, PSA expression was shown to be developmentally regulated with high expression being temporally correlated with the onset of spontaneous contractile activity. Furthermore, blocking contractile activity caused a decrease in PSA expression, while increasing activity with electrical stimulation resulted in its up-regulation. Immunoblot and metabolic labeling studies indicated that dividing myoblasts synthesize primarily 145-kD NCAM, newly formed, spontaneously contracting myotubes synthesize 130-, 145-, and 155-kD NCAM isoforms, while older, more mature myotubes primarily synthesize the glycosylphosphatidylinositol-anchored 130-kD isoform which, in contrast to the other three isoforms, had a high rate of turnover. This developmental switch in NCAM isoform expression could be inhibited with Ca2+ channel blockers and inhibitors of protein kinase C. Taken together, these results suggest that Ca2+ ions and protein kinase C are involved in a second messenger cascade coupling membrane depolarization with transcriptional factors that regulate NCAM isoform synthesis and polysialylation.
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PMID:Contractile activity regulates isoform expression and polysialylation of NCAM in cultured myotubes: involvement of Ca2+ and protein kinase C. 860 27

Development of skin appendages requires interactions between the epithelium and mesenchyme. Without the epithelium, dermal condensations cannot develop, and those already formed will disintegrate. Here we explored the molecular basis of this epithelial requirement and tried to identify the molecule(s) responsible by using the chick feather bud development as a model. TGF beta2 is a likely candidate because its message is predominantly expressed in the feather bud epithelium, and the protein is enriched in the dermal-epidermal junction within the bud. We tested this hypothesis by placing TGF beta-soaked beads on skin explants. We found that TGF beta2, but not TGF beta1, beads placed on top of epithelially stripped mesenchymes can induce dermal condensations. NCAM and tenascin-C (Tn-C) are expressed and protein kinase C is suppressed in the normal feather bud domain. This molecular organization is lost in denuded mesenchyme but can be restored by TGF beta2-coated beads. Subsequently, the TGF beta2-induced dermal condensations can induce nascent epithelium to form skin appendages. Together with our recent findings that ectopic Sonic hedgehog (Shh) expression causes wider TGF beta expression and larger dermal condensation, these results strongly suggest that TGF beta2 produced by epithelial placode is downstream to Shh and plays a key role in the induction of dermal condensation by activating the expression of NCAM and Tn-C, and by suppressing PKC expression.
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PMID:Local delivery of TGF beta2 can substitute for placode epithelium to induce mesenchymal condensation during skin appendage morphogenesis. 890 51

Kurloff cells may represent a major component of NK cell activity in the guinea pig. We have pursued to characterize the mechanism of their action. Using murine target cells, we found Kurloff cell cytotoxicity to be selective for the NK-sensitive YAC-1 target cell, with minimal activity against the NK-resistant P815 target cell. In the presence of PHA, but not ConA, cytotoxicity was markedly augmented against both YAC-1 and P815. While effector-target conjugate formation was observed with YAC-1 cells but not P815 cells in control cultures, it was augmented with both target cell types in cultures with PHA. Pretreatment alone with PHA was ineffective, however. NK cell activity of Kurloff cells was dependent on extracellular Ca++ and entry of Ca++ into the effector cells, as demonstrated by abrogation of cytotoxicity when extracellular Ca++ was chelated with EDTA or EGTA, or following treatment with the Ca++ channel blockers verapamil and diltiazem. Furthermore, inhibition of PKC by H7 resulted in significant reduction of Kurloff cell-mediated NK activity, while pretreatment of effector cells with the PKC activator TPA enhanced NK activity. Kurloff cells could also be stimulated to produce serine esterases by contact with target cells or treatment with phorbol ester and ionophore. Finally, a majority of Kurloff cells, identified by the monoclonal antibody 14D1, reacted with the human NK cell marker CD56. Taken together, these data suggest that Kurloff cells have NK-like characteristics and activity, with target cell selectivity, and that their lytic mechanisms involve influx of extracellular Ca++, PKC activation and serine esterase production.
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PMID:Natural killer and lectin-dependent cytotoxic activities of Kurloff cells: target cell selectivity, conjugate formation, and Ca++ dependency. 897 53

Expression of the RNA-helicase translation initiation factor, eIF4AII, in animal cap explants of Xenopus specifically upregulates genes expressed early in the neural plate border such as Xsna, Xslu, Pax-3 and XANF and also the cement gland marker XCG-1. eIF4AII is expressed specifically in the prospective neurectoderm from stage 11.5 and appears to have a significant role in mediating early patterning of the neurectoderm. It is induced by all known neural inducing regimes including secreted factors such as noggin, follistatin and chordin, transcription factors such as XlPou-2 and constructs that overcome repression of neural induction (tBMP-4R, lim-m3 and Xbra delta 304). It is also upregulated when neurulization occurs in embryonic ectoderm that has been disaggregated and reaggregated. While high amounts of injected mRNA of the neural inducers noggin, tBMP-4R and Xlpou-2 downregulate Xslu and upregulate the neural plate NCAM, smaller amounts of these mRNAs activate expression of eIF4AII and Xslu and suppress expression of epidermal keratin in animal cap assays. Ectopic expression of eIF4AII mRNA also upregulates transcription of the PKC alpha and beta genes. The sensitivity of the upregulation of neurectodermal markers to GF109203X indicates that the activity of a calcium activated protein kinase C (PKC) is also required. Furthermore ectopic expression of mouse eIF4AII mRNA upregulates the endogenous eIF4AII gene by a process that requires the activity of PKC. The effects of eIF4AII appear to be direct as conditional expression of eIF4AII in animal cap explants at the equivalent of stage 11.5 induces the endogenous eIF4AII and neural fold genes within 40 minutes. Expression of eIF4AII and activation of PKC sensitizes the embryonic ectoderm to the neuralising effect of noggin. We suggest that in developing embryos the neuralizing signal emanating from the organiser at first induces eIF4AII and the prospective neural crest in an arc low on the dorsal aspect of the embryo. As the neuralizing signal increases in intensity close to the organizer region, the tissue becomes committed to a neural plate phenotype. Expression of Xash-3A may suppress further expression of neural plate border genes within the prospective neural plate thereby subdividing the neurectoderm into two distinct regions.
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PMID:The role in neural patterning of translation initiation factor eIF4AII; induction of neural fold genes. 922 46

Polysialylation of neural cell adhesion molecule (NCAM PSA) modulates cell-cell homophilic binding and signalling during brain development and the remodelling of discrete brain regions in the adult. Following learning, a transient increase in the frequency of polysialylated neurones occurs in the dentate gyrus of the hippocampal formation, and this has been correlated with the selective retention and/or elimination of synapses that are transiently overproduced during memory consolidation. We now demonstrate that protein kinase C delta (PKCdelta) negatively regulates polysialyltransferase activity in the rat brain during development and also in the hippocampus during memory consolidation, where its down-regulation in the Golgi membrane fraction coincides with the transient increase in NCAM PSA expression. Decreased expression of PKCdelta was also observed in the hippocampus of rats reared in a complex environment and this directly contrasted the significant increase in frequency of hippocampal polysialylated neurones observed in these animals. These effects were isoform-specific as no change in total PKC enzyme activity was detected during memory consolidation and complex environment rearing had no effect on the hippocampal expression of PKCalpha, beta, gamma or epsilon. By sequential immunoprecipitation and immunoblot analysis, phosphorylation of polysialyltransferase protein(s) was (were) demonstrated to occur on both serine and tyrosine residues and this was associated with decreased enzyme activity. Moreover, a similar experimental approach revealed the degree of PKCdelta co-precipitation with polysialyltransferase protein(s) to be inversely correlated with polysialyltransferase activity. These findings support in vitro evidence indicating PKCdelta to regulate polysialyltransferase activity and NCAM polysialylation state.
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PMID:Protein kinase C delta regulates neural cell adhesion molecule polysialylation state in the rat brain. 1129 5

It is still largely unclear how cell adhesion molecule (CAM)-mediated signaling evokes responses from the growth cone cytoskeleton. Here we used TX-114 extraction of growth cones followed by equilibrium gradient centrifugation to isolate subfractions of detergent-resistant microdomains (DRMs) that could be structurally and functionally distinguished on the basis of localization and activation of components of CAM-mediated signaling pathways. DRMs enriched in cholesterol, caveolin, NCAM140, GPI-linked NCAM120, fyn, and GAP-43, all conventional markers of microdomains or rafts, were located in areas 2 and 3 of the gradient. Coimmunoprecipitation of specific components of CAM signaling pathways by GAP-43 then identified distinct subpopulations of DRMs. GAP-43 from area 2 DRMs coprecipitated GPI-linked NCAM120 and was inactive, i.e., PKC phosphorylation had not been stimulated. In contrast the GAP-43 from area 3 DRMs coprecipitated both transmembrane NCAM140 and caveolin and was active, i.e., highly phosphorylated by PKC. A different subset of DRMs from both area 2 and area 3 contained fyn that could not be coprecipitated with GAP-43 antibodies. In this case area 2 DRMs contained activated fyn that was phosphorylated on Y415. In contrast area 3 DRMs contained inactive fyn. Hence fyn and GAP-43, both targets of NCAM signaling, are located in distinct populations of DRMs, and their activated forms are reciprocally distributed on the gradient. A detergent-resistant membrane fraction recovered from area 4 was enriched in NCAM140, phosphorylated GAP-43, and actin, but not cholesterol, caveolin, or fyn. Immunoelectron microscopy revealed that phosphorylated GAP-43 was localized where the membranes and F-actin interacted. Our results provide evidence for NCAM-mediated signaling in DRMs and suggest that the DRMs responsible for fyn and PKC/GAP-43-mediated NCAM signaling are structurally distinct and differentially distributed in growth cones.
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PMID:Isolation and characterization of detergent-resistant microdomains responsive to NCAM-mediated signaling from growth cones. 1181 95

The neural cell adhesion molecule, NCAM, is known to stimulate neurite outgrowth from primary neurones and PC12 cells presumably through signalling pathways involving the fibroblast growth factor receptor (FGFR), protein kinase A (PKA), protein kinase C (PKC), the Ras-mitogen activated protein kinase (MAPK) pathway and an increase in intracellular Ca2+ levels. Stimulation of neurones with the synthetic NCAM-ligand, C3, induces neurite outgrowth through signalling pathways similar to the pathways activated through physiological, homophilic NCAM-stimulation. We present here data indicating that phosphatidylinositol 3-kinase (PI3K) is required for NCAM-mediated neurite outgrowth from PC12-E2 cells and from cerebellar and dopaminergic neurones in primary culture, and that the thr/ser kinase Akt/protein kinase B (PKB) is phosphorylated downstream of PI3K after stimulation with C3. Moreover, we present data indicating a survival-promoting effect of NCAM-stimulation by C3 on cerebellar and dopaminergic neurones induced to undergo apoptosis. This protective effect of C3 included an inhibition of both DNA-fragmentation and caspase-3 activation. The survival-promoting effect of NCAM-stimulation was also shown to be dependent on PI3K.
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PMID:The role of phosphatidylinositol 3-kinase in neural cell adhesion molecule-mediated neuronal differentiation and survival. 1255 74


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