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)

An early consequence of stimulation of T cells via their Ag receptor is the activation of protein kinase C (PKC). It has recently been shown that PKC activity resides in a family of homologous proteins. Inasmuch as T cells are phenotypically and functionally heterogeneous, we examined the possibility that this heterogeneity may be reflected in differential expression of message for PKC isoenzyme genes. RNA from six leukemic T cell lines was probed for PKC-alpha, -beta, and -gamma message before and after activation. These studies revealed significant differences among these lines. None expressed mRNA for PKC-gamma. Whereas all cells possessed message for PKC-alpha, there was consistent variability in the level expressed. The greatest heterogeneity was seen with PKC-beta. Two cell lines, HUT 78 and HPB-ALL, did not hybridize with the beta probe under any conditions tested. We subsequently used these PKC-beta negative cells to study the role of this isoenzyme in mediating some of the effects seen with phorbol esters that directly bind to and activate PKC. Our results indicate that PKC-beta, which is expressed in some T cells, is not necessary for PMA-induced CD3 or CD4 internalization, IL-2 production, or acquisition of the p55 chain of the IL-2 receptor.
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PMID:Heterogeneity of protein kinase C isoenzyme gene expression in human T cell lines. Protein kinase C-beta is not required for several T cell functions. 278 92

We have analyzed the effect mediated by prostaglandin E2 (PGE2) and different reagents that increase intracellular cAMP on the expression of the p55 subunit (CD25) of interleukin 2 receptors (IL 2R), on the levels of CD25-specific mRNA and on the expression of high affinity IL 2R. In purified T cells, activated either by an anti-CD3 monoclonal antibody or phytohemagglutinin, the addition of PGE2 (10(-6) M), forskolin (5 X 10(-5) M), cholera toxin (0.2 microgram/ml) or dibutyryl cAMP (dBcAMP) (10(-4) M) decreased the cell surface expression of IL 2R by reducing (40%-78% inhibition) the proportions of CD25+ cells as well as the expression of high affinity IL 2R, detectable after 24 h. Furthermore, it was observed that PGE2 reduced the concentration of IL 2R-specific mRNA after a 6-h period of activation, indicating that its regulatory activity takes place at a pretranslational level. The addition of exogenous recombinant IL 2 only partially reversed the inhibition, thus suggesting that PGE2 and increased intracellular concentration of cAMP directly interfered with CD25 expression and that their effect could not be merely attributed to a lack of IL 2-dependent positive feedback. Cells cultured under the same conditions in the presence of phorbol myristate acetate, that activates protein kinase C, were refractory to the cAMP-mediated regulation. Finally, we demonstrate that both PGE2 and dBcAMP inhibit the generation of inositol metabolites after T cell activation, thus indicating that these reagents interfere with early signal transduction mechanisms which precede the synthesis of IL 2R.
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PMID:Prostaglandin E2 and the increase of intracellular cAMP inhibit the expression of interleukin 2 receptors in human T cells. 284 51

Infections with verocytotoxin (VT) producing Escherichia coli have been strongly implicated in the epidemic form of hemolytic uremic syndrome (HUS). Endothelial damage plays a central role in the pathogenesis of HUS. In vitro studies have shown that VT can damage endothelial cells after interaction with its cellular receptor globotriaosylceramide (GbOse3cer). Cytokines, such as tumor necrosis factor alpha (TNF alpha) and interleukin-1 (IL-1) can potentiate the toxic effect of VT by inducing a protein-synthesis dependent increase in VT receptors on endothelial cells. In this study, the mechanisms underlying the increase in endothelial VT receptors induced by TNF alpha were studied in more detail. To investigate which proteins were involved in this induction, endothelial cells were incubated with and without TNF alpha in the presence of 14C-galactose or 14C-glucose. Thin-layer chromatography (TLC) analysis of the glycolipid extracts of these cells demonstrated a markedly enhanced incorporation of 14C-galactose in GbOse3cer and other galactose-containing glycolipids, suggesting that TNF alpha enhanced galactosyl-transferase activity. To examine the role of the two recently cloned TNF-receptors (TNFR-p75 and TNFR-p55) in the TNF alpha-induced increase in GbOse3cer in human endothelial cells, cells were incubated with TNF alpha, the TNFR-p55 selective R32W-S86T-TNF alpha-mutant, or the TNFR-p75 selective D143N-A145R-TNF alpha-mutant. The effect of TNF alpha activation, determined by binding-experiments with 125I-VT-1, could be largely, but not completely mimicked by R32W-S86T-TNF alpha. Although incubation of cells with D143N-A145R-TNF alpha did not show an increase in VT-1 binding, the monoclonal antibody utr-1, which prevents binding to TNFR-p75, decreased the TNF alpha-induced VT-1 binding. Activation of protein kinase C (PKC) by phorbol ester increases the expression of VT-1 receptors; this effect was prevented by the PKC inhibitor Ro31-8220 and by homologous desensitization by pretreatment with phorbol ester. In contrast, the presence of the protein kinase inhibitor Ro31-8220 or desensitization of PKC activity reduced the TNF alpha-induced increase in VT-1 receptors maximally by 50% and 24%, respectively. Comparable reductions in overall protein synthesis and the synthesis of E-selectin and plasminogen activator inhibitor-1 (PAI-1) were observed. This suggests an effect on general protein synthesis rather than a specific effect of PKC in the signal transduction pathway, by which TNF alpha induces VT-1 receptors. Our results indicate that TNF alpha can increase the VT-1 receptors on endothelial cells by inducing galactosyl-transferase activity, that this action of TNF alpha mainly occurs via the TNFR-p55; and that PKC activation increases expression of VT-1 receptors by a separate mechanism that acts additively to the TNF alpha-induced increase in VT-1 receptors.
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PMID:Tumor necrosis factor alpha induces endothelial galactosyl transferase activity and verocytotoxin receptors. Role of specific tumor necrosis factor receptors and protein kinase C. 753 May 4

In the past few years, a number of experimental observations have provided more insight into the mechanisms of action of tumor necrosis factor (TNF)/lymphotoxin (LT) ligand-receptor system. This system consists of three ligands, TNF, LT alpha (LT alpha) and LT beta (LT beta), and three membrane-associated receptors, p55, p75 and LT beta-receptor (LT beta-R). Like TNF, LT alpha is a secreted protein which in solution forms a homotrimer molecule, with a conformation similar to that of TNF. LT beta is a transmembrane protein that provides the membrane anchor for the attachment to the cell surface of the heteromeric complex of LT alpha and LT beta. This complex retains a structure related to TNF and LT alpha homotrimers, with the homology regions interacting in a heterotypic fashion. The LT alpha 1:LT beta 2 heteromer has been found to be a predominant form of surface LT. The biological effects of TNF and LT alpha homotrimers are mediated by p55 and p75 receptors, while the heteromeric complex of LT alpha/LT beta transduces its cellular signal via LT beta-R. Membrane-associated receptor affinities as well as final biological effects of TNF/LT can be modulated by the influence of naturally occurring soluble receptors, derived from the cell surface by proteolytic cleavage. The multimerization of receptor cytoplasmic domains upon TNF/LT ligation is postulated to activate the intracellular signal-transduction pathways. One of them is the activation of phospholipase A2 (PL-A2) resulting in the production of arachidonic acid (AA) and other metabolites, including leukotriens, phosphatidycholine-specific phospholipase C (PC-PLC) with subsequent production of diacylglycerol (DAG) and activation of protein kinase C (PKC). As a third signaling pathway, TNF/LT employ the sphingomyelinase (SMase)-mediated hydrolysis of membrane sphingomyelin (SM) to ceramide. The final link in the TNF/LT signaling is activation of nuclear transcription factors, such as NF-kappa B, AP-1, interferon regulatory factors-1 and -2 (IRF-1, IRF-2), and NF-GMa. Since induction of AP-1, IRF-1 and IRF-2 as well as NF-GMa proceeds through translational event, the posttranslational TNF/LT-driven activation of NF-kappa B remains the only cellular event identified so far that serves as a direct target in their signaling cascade.
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PMID:Mechanisms of action of the tumor necrosis factor and lymphotoxin ligand-receptor system. 757 92

The T cell surface molecules CD5 and CD28 have been shown to be receptors for accessory signals in T cell activation. We here demonstrate that in the absence of any other activating stimulus, simultaneous ligation of CD5 and CD28 by mAb induces polyclonal T cell activation. Immobilization of the anti-CD28 and anti-CD5 mAb was an essential requirement for T cell stimulation. This was done either through coating of the culture plates with goat anti-mouse Ig, or by coculture with mitomycin C-treated Fc gamma R-bearing P815 mouse mastocytoma cells. Most importantly, T cells could also be stimulated with B7, the natural ligand of CD28, and anti-CD5 presented on irradiated 3T6 mouse fibroblasts co-transfected with human Fc gamma RII and with B7. Neither immobilized mAb 9.3 (anti-CD28) nor any of four different anti-CD5 mAb were mitogenic as a sole stimulus. Immobilized mAb identifying CD4, CD7, or LFA-1 were not co-mitogenic with either mAb 9.3 or one of the anti-CD5 mAb. The T cell proliferation induced by cross-linking of CD5 and CD28 is IL-2-dependent, as was demonstrated by the cell-surface expression of the p55 chain of the IL-2R, the production of IL-2, and inhibition of the proliferative response by the anti-IL-2R mAb anti-Tac. CD5/CD28 ligation induced production of TNF-alpha, but not of IL-4, and did not induce modulation of the TCR/CD3 complex. Expression of IL-2R (p55) and of CD69 preferentially occurred on CD29-low naive cells, and indicated that about 50% of the cultured cells were activated. Cell proliferation was not increased by adding monocytes to the cultures and it was inhibited by PKC inhibitors (H7 and staurosporine) and by cyclosporine A. In conclusion, our data provide evidence for a pathway of Ag-independent T cell activation via CD5 and CD28, which preferentially stimulates native T cells.
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PMID:Simultaneous ligation of CD5 and CD28 on resting T lymphocytes induces T cell activation in the absence of T cell receptor/CD3 occupancy. 767 24

Phosphorylation with endogenous protein kinase C causes the membrane skeletal protein, band 4.1, to lose its capacity to attach to one of two classes of high-affinity binding sites on the red cell membrane. These sites are the ones eliminated by proteolysis in situ of glycophorin C; the surviving type of site is located in a C-terminal peptide of the glycophorin C, retained on the membrane after proteolysis, which is also the site of attachment of p55. A synthetic peptide, comprising the 28 C-terminal residues of glycophorin C, also binds protein 4.1. Phosphorylation of the intact cells, stimulated by phorbol ester, approximately halves the retention of glycophorin C in the membrane cytoskeletons prepared from these cells and reduces the affinity of extracellular glycophorin C epitopes for their antibody.
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PMID:Interaction of protein 4.1 with the red cell membrane: effects of phosphorylation by protein kinase C. 775 24

The human immunodeficiency virus type 1 internal structural protein precursor, p55, and its corresponding matrix proteolytic fragment, p17, are phosphorylated at Ser111 by protein kinase C. COS-7 cells transfected with plasmids encoding either the wild-type or Ser111-->Ala mutated human immunodeficiency virus type 1 gag gene matrix domain proteins were treated with phorbol 12-myristate 13-acetate (PMA), and the phosphorylation of the expressed p17 proteins was examined by radioimmunoprecipitation, SDS-polyacrylamide gel electrophoresis, and autoradiography. PMA treatment of transfected cells resulted in a 4-5-fold increase in wild-type p17 (but not mutated p17) phosphorylation; however, mutated p17 exhibited a low basal level of phosphorylation that was not affected by PMA, suggesting that additional sites were phosphorylated. PMA treatment of cells expressing wild-type p17 produced a dramatic shift in the localization of p17 from the cytosol to the membrane fraction within 8-15 min, followed by a slow quantitative dissociation of p17 back into the cytosol by 90 min. The cytosol-to-membrane translocation was dependent on N-myristoylated p17 since cells expressing p17 with a Gly2-->Ala mutation did not localize to the membrane. PMA also failed to induce the translocation of fully N-myristoylated Ser111-->Ala p17, suggesting that p17 phosphorylation at Ser111 was responsible for membrane association. This conclusion was confirmed by the finding of phosphorylated wild-type p17 in the membrane fraction only after PMA treatment. These results suggest that a "myristoyl-protein switch" regulates the reversible membrane targeting of p17 by protein kinase C-mediated phosphorylation. This signal may provide a mechanism for the cellular regulation of virus development through modulation of gag protein-related developmental steps such as capsid targeting, assembly, encapsidation, budding, and maturation.
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PMID:Regulation of HIV-1 gag protein subcellular targeting by protein kinase C. 787 52

TNF is a potent activator of neutrophil granulocytes which acts via two cell surface receptors: the p55-TNF receptor (TNF-R55) and the p75-TNF receptor (TNF-R75). The extracellular region of the receptors can be released by proteolytic cleavage and form soluble TNF-binding proteins, TNF-R55-BP and TNF-R75-BP, respectively. The phorbol ester PMA, the chemotactic peptide FMLP, and TNF were all found to induce release of TNF-R55-BP and TNF-R75-BP from neutrophils in suspension in a time- and dose-dependent manner as measured by ELISA. Exposure of neutrophils to 10 ng/ml of PMA for 60 min resulted in release of 900 pg of TNF-R55-BP and 350 pg of TNF-R75-BP per 5 million cells, corresponding to approximately 4800 receptors per cell. In addition, adherence by itself of neutrophils to fibrinogen-coated culture plates and other surfaces resulted in a release of TNF-R55-BP of the same magnitude as seen in response of neutrophils in suspension to 1 nM TNF, whereas the release of TNF-R75-BP was less pronounced. The protein kinase C inhibitors staurosporin and calphostin C inhibited both the TNF-, PMA-, and adherence-induced release of soluble forms of TNFRs. Ab to the common beta-chain of the leukocyte integrins (CD18) did not affect adherence-induced TNF-R55-BP release, indicating that non-integrin-dependent mechanisms are involved in receptor cleavage. However, cross-linking of anti-CD18 Ab (IB4) with a Fab2 fragment resulted in a decrease of specific binding of 125I-TNF to neutrophils indicating that the leukocyte integrins can modulate TNFR expression on neutrophils. Thus, adherence to a biological surface, without additional stimuli, induces release of soluble TNFR form from neutrophils. TNFR expression can be modulated by protein kinase C as well as both leukocyte integrins and non-integrin-dependent adherence mechanisms.
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PMID:Adherence of neutrophils induces release of soluble tumor necrosis factor receptor forms. 790 2

Recombinant human interleukin-4 (rhIL-4) and rhIL-1 alpha each produced a rapid down-modulation of tumour necrosis factor receptor (TNFR) on rheumatoid synovial fibroblasts (RSF) in vitro. This was associated with a staurosporine-resistant increase in p55 soluble TNFR levels, in culture media, suggesting that down-modulation was due to enhanced receptor shedding via a protein kinase C-independent mechanism. Pretreatment with rhIL-4 reduced the subsequent tumour necrosis factor alpha (TNF alpha) stimulation of prostaglandin E (PGE) and matrix metalloproteinase-3 (MMP-3) production by RSF. Thus, the potential anti-synovial monokine properties of rhIL-4 are not confined to inhibiting monokine production but also include the ability to interfere with their action on cells that constitute a substantial proportion of the rheumatoid synovium.
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PMID:Interleukin-4 (IL-4) induces down-modulation and shedding of the p55 tumour necrosis factor receptor and inhibits TNF alpha's effect on rheumatoid synovial fibroblasts. 793 36

The expression and cytokine-mediated regulation of the two different receptors for tumor necrosis factor, TNF-R-75 and TNF-R-55, was investigated in human malignant epithelial cell lines. Here we show that cells treated with TNF-alpha up-regulate the TNF-R-75 mRNA and protein levels. No changes were seen regarding the level of TNF-R-55 transcripts. Phospholipase and protein kinase C inhibitors abrogated the signal transduction pathway of TNF-mediated TNF-R-75 mRNA up-regulation which proceeded in the absence of transcriptional activation. This process was also elicited by an agonistic antibody binding specifically to TNF-R-55. Ligand binding assays using specific inhibitory antibodies showed a marked shift in active binding sites from p55 to p75 without significant changes in the total binding for TNF-alpha after up-regulation of p75 TNF-R. This ligand-induced regulation of one of the corresponding receptors has so far only been detected in malignant epithelial cells and not in hematopoietic cell lines. In our search for a specific function we were able to show that p75 is the specific receptor for TNF-mediated up-regulation of transforming growth factor alpha mRNA, whereas p55 is the signal transducer for TNF-induced up-regulation of epidermal growth factor receptor mRNA. This is the first demonstration of an exclusive function of TNF-R-75 in cells of epithelial origin.
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PMID:Tumor necrosis factor (TNF) up-regulates the expression of p75 but not p55 TNF receptors, and both receptors mediate, independently of each other, up-regulation of transforming growth factor alpha and epidermal growth factor receptor mRNA. 838 14


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