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)

Neutrophil (PMN) activation by the yeast component zymosan involves the complement receptor type 3 (CD11b/CD18). Recombinant human tumour necrosis factor-alpha (rhTNF-alpha) augmented the zymosan-stimulated leukotriene B4 (LTB4) release from PMN, reaching a fourfold increase at 10(-9) M. Co-incubation of PMN with 10(-9) M rhTNF-alpha and staurosporine resulted in a further dose-dependent increase, which became significantly greater than a purely additive effect at a staurosporine concentration of 10 nM. This synergy was maintained at all doses of staurosporine tested. In addition, doses of phorbol 12-myristate 13-acetate (PMA) that do not activate protein kinase C (PKC) (below 10(-9) M) also augmented the zymosan-stimulated release of LTB4. However, doses of PMA above 10(-9) M progressively inhibited the response to levels below that of zymosan alone. Staurosporine at 50 nM completely prevented, and 10(-9) M rhTNF-alpha partially but significantly (P less than 0.02 at 10(-8) M PMA, P less than 0.01 at 10(-7) M PMA) reversed, this high-dose PMA inhibition. PKC activation thus opposes the priming effect of rhTNF-alpha on neutrophils, while PKC inhibition may enhance the ability of rhTNF-alpha to prime PMN for zymosan activation. The combined effect of rhTNF-alpha and staurosporine suggests an intracellular synergy rather than simply a direct action due to increased zymosan receptor expression. Thus there appear to be mechanisms whereby the responses of neutrophils may be augmented without activating PKC. Indeed, kinase activation may even exert a degree of feedback control that is antagonized by rhTNF-alpha treatment.
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PMID:Protein kinase C activation modulates tumour necrosis factor-alpha priming of human neutrophils for zymosan-induced leukotriene B4 release. 131 94

Complement receptor (CR)-mediated phagocytosis is associated with an increased accumulation of diglyceride (sn-1,2-diacylglycerol and/or 1-O-alkyl-2-acyl-glycerol) in human neutrophils. The C3bi-mediated increase in diglyceride (5-20 min) was only partially impaired when phosphoinositide-specific phospholipase C (PLC) activity was abolished by reduction of cytosolic free Ca2+. At an early time point (1 min), however, diglyceride production was barely detectable in control cells, whereas production was considerable in cells with a reduced cytosolic free Ca2+ concentration. C3bi stimulation of 32P-labeled neutrophils caused a rapid and significant breakdown of [32P]phosphatidylcholine (PC) which was not affected by inhibition of Ca(2+)-dependent phosphoinositide-specific PLC. Thus, PC hydrolysis could be involved in C3bi-induced diglyceride formation. Stimulation of cells labeled with [3H]1-O-alkyl-lyso-PC ([3H]alkyl-lyso-PC), resulted in an increased formation of [3H]1-O-alkyl-phosphatidic acid ([3H]alkyl-PA) and a later and slower formation of [3H]1-O-alkyl-diglyceride ([3H]alkyl-diglyceride); this suggests activation of phospholipase D (PLD). When these labeled cells were stimulated in the presence of 0.5% ethanol a marked accumulation of [3H]1-O-alkyl-phosphatidylethanol ([3H]alkyl-PEt) was observed in both controls and calcium-reduced cells, further strengthening the suggested involvement of PLD activity. In parallel with the sustained increase in diglyceride formation, CR-mediated phagocytosis was also associated with phosphorylation of a cellular protein kinase C substrate (MARCKS). Therefore it seems reasonable to suggest a causal relationship between C3bi-induced PLD activation, which results in diglyceride formation, and activation of protein kinase C. In electropermeabilized cells which were incapable of ingesting particles, C3bi particles were still able to activate PLD and induce formation of diglyceride. This signaling event must therefore be triggered by binding of particles to the cell and not by the engulfment process. Most importantly, introduction of the protein kinase C inhibitor peptides, PKC(19-36) and PKC(19-31), into these permeabilized cells resulted in a clear reduction of the C3bi-induced production of diglyceride, indicating that CR-mediated activation of protein kinase C directly triggers a positive feedback mechanism for additional diglyceride formation. Taken together, these data further clarify the mechanisms of CR-mediated diglyceride formation and give added support to the concept that protein kinase C plays an important role in the phagocytic process.
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PMID:Complement receptor-mediated phagocytosis is associated with accumulation of phosphatidylcholine-derived diglyceride in human neutrophils. Involvement of phospholipase D and direct evidence for a positive feedback signal of protein kinase. 173 62

Human neutrophils aggregate after stimulation with various stimuli; this response is completely absent in neutrophils from patients with leukocyte adhesion deficiency (LAD). To investigate the cellular requirements of this process a method was used in which neutrophils are separately loaded with hydroethidine (HE) and sulfofluorescein (SFDA), to give them either red fluorescence or green fluorescence. After mixing HE- and SFDA-labeled cells in a ratio of 1:1, the number of double-colored aggregates formed after activation was determined by analysis on a fluorescence-activated cell sorter. In this way, essential information is obtained when cells of different origin are used. The formation of aggregates between neutrophils of an LAD patient and control neutrophils was thus quantified. Because neutrophil aggregation is dependent mostly on the presence of complement receptor type 3 (CR3), which is not present on LAD neutrophils, this result revealed the presence of a counter-structure for CR3 on LAD neutrophils (and hence on normal human neutrophils). In addition to the presence of these proteins on the cell surface, aggregation required continuous cell triggering as indicated by the transient aggregation induced by short-term activation of protein kinase C. This phenomenon was substantiated by the fact that energy depletion caused profound disaggregation. The present study reveals that neutrophil aggregation is a well-controlled process, which needs constant activation of CR3 for a stable interaction with a constitutively expressed counter-structure.
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PMID:Continuous cell activation is necessary for stable interaction of complement receptor type 3 with its counter-structure in the aggregation response of human neutrophils. 218 Jul 24

Decay-accelerating factor (DAF) is a membrane protein that protects blood cells from damage by autologous complement. Using monoclonal antibodies in both direct-binding studies and flow cytometry, we found that resting neutrophils (polymorphonuclear leukocytes [PMN]) expressed 10(4) DAF molecules on their surface, and that surface DAF expression more than doubled when the cells were activated. Upregulation of surface DAF occurred within minutes, paralleled the upregulation of complement receptor types 1 and 3 (CR1 and CR3), and was not dependent on new protein synthesis. It was unaffected by EDTA but was inhibited by 10 microM trifluoperazine, suggesting involvement of intracellular Ca2+ and calmodulin or protein kinase C. Upon activation, the affected PMN lacking surface DAF from patients with paroxysmal nocturnal hemoglobulinuria failed to increase DAF expression. In contrast, these cells increased CR1 and CR3 expression normally, suggesting that DAF deficiency in affected cells involves abnormal synthesis or packaging of DAF for intracellular storage. Translocation of DAF to the cell surface induced by chemoattractants may be important in allowing PMN to survive and function at inflammatory sites where there is rapid complement turnover.
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PMID:Increased expression of complement decay-accelerating factor during activation of human neutrophils. 243 89

10 overlapping CR1 cDNA clones that span 5.5 kb were isolated from a tonsillar library and sequenced in whole or in part. A single long open reading frame beginning at the 5' end of the clones and extending 4.7 kb downstream to a stop codon was identified. This sequence represents approximately 80% of the estimated 6 kb of coding sequence for the F allotype of CR1. Three tandem, direct, long homologous repeats (LHRs) of 450 amino acids were identified. Analysis of the sequences of tryptic peptides provided evidence for a fourth LHR in the F allotype of CR1. Amino acid identity between the LHRs ranged from 70% between the first and third repeats to 99% between the NH2-terminal 250 amino acids of the first and second repeats. Each LHR comprises seven short consensus repeats (SCRs) of 60-70 amino acids that resemble the SCRs of other C3/C4 binding proteins, such as complement receptor type 2, factors B and H, C4 binding protein, and C2. Two additional SCRs join the LHRs to a single membrane-spanning domain of 25 amino acids; thus, the F allotype of CR1 probably contains at least 30 SCRs, 23 of which have been sequenced. Each SCR is predicted to form a triple loop structure in which the four conserved half-cystines form disulfide linkages. The linear alignment of 30 SCRs as a semi-rigid structure would extend 1,140A from the plasma membrane and might facilitate the interaction of CR1 with C3b and C4b located within the interstices of immune complexes and microbial cell walls. The COOH-terminal cytoplasmic domain of 43 residues contains a six-amino-acid sequence that is homologous to the sequence in the epidermal growth factor receptor that is phosphorylated by protein kinase C.
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PMID:Human C3b/C4b receptor (CR1). Demonstration of long homologous repeating domains that are composed of the short consensus repeats characteristics of C3/C4 binding proteins. 295 79

Previously we have shown that reactive oxygen species (ROS) formation induced by phorbol ester in association with vanadate is essential for protein tyrosine phosphorylation and phospholipase A2 (PLA2) activation. Here we show that the interaction of beta-glucan particles (glucanp) or zymosan with complement receptor type 3 (CR3) leads, when associated with vanadate, to a cascade of reactions culminating in PLA2 activation. Vanadate + zymosan (or glucanp) markedly enhance protein tyrosine phosphorylation in bone marrow derived macrophages (BMMs), whereas neither of the agents alone has any effect. The enhancement was due to both sustained activation of protein tyrosine kinase (PTK) and inactivation of protein tyrosine phosphatase (PTP) as assessed in lysates of treated cells. Zymosan elevates membranal PKC, an effect that is potentiated by vanadate. Activation of both PTK and PKC leads to the activation of NADPH oxidase and to ROS formation. The formed ROS together with vanadate are potent inactivators of PTP leading to amplification of tyrosine phosphorylation and myelin basic protein kinase (MBP-K) activation. The activation of the cascade of protein kinases eventually leads to activation of PLA2. All the activation steps, i.e., activation of PTK, NADPH oxidase, MBP-K,PLA2 and the inactivation of PTP are sensitive to the NADPH oxidase inhibitor diphenyleneiodonium (DPI), to antioxidants and to PKC inhibitors. Thus, ROS formation (in the presence of vanadate) is critical for protein phosphorylation processes constituting the regulatory pathway of PLA2 activation by ligand-CR3 interaction.
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PMID:A role for reactive oxygen species in zymosan and beta-glucan induced protein tyrosine phosphorylation and phospholipase A2 activation in murine macrophages. 803 63

The cellular receptor for Epstein-Barr virus (EBV) is the type 2 complement receptor, CD21. At initial infection, EBV virion glycoproteins gp350 and gp220 bind to CD21. We report here that the cross-linking of CD21 by gp350/220 results in increased amounts of interleukin 6 (IL-6) RNA and IL-6 protein. This effect could be blocked with anti-gp350/220 and anti-CD21 monoclonal antibodies. Induction of IL-6 in B cells by EBV could be mimicked by treatment with the protein kinase C (PKC) activator phorbol 12,13-dibutyrate but not with the calcium ionophore ionomycin. IL-6 induction by EBV was inhibited with the PKC-specific inhibitor bisindolylmaleimide or the protein tyrosine kinase inhibitors methyl 2,5-dihydroxycinnamate and herbimycin A, indicating that the induction of IL-6 following CD21 cross-linking is mediated through PKC- and protein tyrosine kinase-dependent pathways.
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PMID:Induction of interleukin-6 after stimulation of human B-cell CD21 by Epstein-Barr virus glycoproteins gp350 and gp220. 852 72

The cellular function of the MARCKS family of protein kinase C substrates is unknown. In this report, we present evidence that indicates a role for MacMARCKS, a member of the MARCKS family, in the integrin-dependent signal transduction pathways in macrophages. Using a dominant negative mutant of MacMARCKS, we showed that MacMARCKS participates in several integrin-dependent macrophage functions, including the phorbol ester-stimulated macrophage spreading, a process involving multiple integrins. The dominant negative mutant also blocks macrophage spreading on immune complex-coated surfaces, a process again requiring beta2 integrin. More direct evidence of the role of MacMARCKS in the integrin-dependent pathway is the ablation of macrophage binding to complement iC3b-coated sheep erythrocytes by MacMARCKS mutant, suggesting an effect of this mutant on the avidity of complement receptor 3, a member of the beta2 integrin family. To further evaluate the possible mechanism of MacMARCKS function, the integrin-dependent tyrosine phosphorylation of paxillin was examined. Concomitant with the inhibition of macrophage spreading and rosette formation, MacMARCKS mutant also inhibits integrin-dependent tyrosine phosphorylation of paxillin. Furthermore, immunofluorescent microscopy data showed that MacMARCKS and paxillin colocalize in the membrane ruffles at the leading edge of the spreading cells, providing a potential site and opportunity for MacMARCKS to participate in the regulation of integrin-dependent tyrosine phosphorylation of paxillin. Together, these data strongly suggest that MacMARCKS plays a role in integrin-dependent signal transduction pathways in macrophages.
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PMID:Role of MacMARCKS in integrin-dependent macrophage spreading and tyrosine phosphorylation of paxillin. 866 82

It has long been known from the results of ultrastructural studies that complement- and immunoglobulin G (IgG)-opsonized particles are phagocytosed differently by macrophages (Kaplan. G. 1977. Scand. J. Immunol. 6:797-807). Complement-opsonized particles sink into the cell, whereas IgG-coated particles are engulfed by lamellipodia, which project from the cell surface. The molecular basis for these differences is unknown. We used indirect immunofluorescence and confocal microscopy to examine how cytoskeletal proteins associate with phagosomes containing complement-opsonized zymosan (COZ) particles or IgG beads in phorbol-myristateacetate-treated peritoneal macrophages. During ingestion of COZ, punctate structures rich in F-actin, vinculin, alpha-actinin, paxillin, and phosphotyrosine-containing proteins are distributed over the phagosome surface. These foci are detected beneath bound COZ within 30 s of warming the cells to 37 degrees C, and their formation requires active protein kinase C. By contrast, during Fc receptor-mediated phagocytosis, all proteins examined were uniformly distributed on or near the phagosome surface. Moreover, ingestion of IgG beads was blocked by tyrosine kinase inhibitors, whereas phagocytosis of COZ was not. Thus, the signals required for particle ingestion, and the arrangement of cytoskeletal proteins on the phagosome surface, vary depending upon which phagocytic receptor is engaged. Moreover, complement receptor (CR)-mediated internalization required intact microtubules and was accompanied by the accumulation of vesicles beneath the forming phagosome, suggesting that membrane trafficking plays a key role in CR-mediated phagocytosis.
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PMID:Molecular definition of distinct cytoskeletal structures involved in complement- and Fc receptor-mediated phagocytosis in macrophages. 876 Aug 16

Epstein-Barr virus (EBV) initiates infection of normal B lymphocytes by binding to CD21, a complement receptor. Since EBV, unlike most viruses, preferentially infects resting (non-activated) cells, the present studies were undertaken to evaluate the hypothesis that intracellular signalling pathway(s) triggered by EBV binding to CD21 activate the expression of certain cellular genes, as well as the initially expressed viral genes, and thus enable EBV to infect resting B cells. Experiments with nontransforming EBV, recombinant virus ligand and anti-CD2 1 MAbs show that EBV binding to CD21 on resting B cells increases CD23 mRNA levels independently of viral gene expression. A panel of five protein kinase C (PKC) and tyrosine kinase (PTK) inhibitors, all with different modes of action, exhibited a distinctive pattern of effects on the EBV induced induction of CD23 expression, ranging from nearly complete inhibition to no influence. The results suggest that distinct PKC isoforms and PTKs are involved in the signalling pathway(s) triggered by EBV binding to CD21. Significantly, the five inhibitors showed the same pattern of effects on the earliest stages of infection (EBNA-2 transcription) and B cell transformation (mitogenesis and colony formation). The identical pattern of effects of these PKC and PTK inhibitors with diverse mechanisms of action on the EBV induced increase in both CD23 and EBNA-2 mRNA levels strongly suggests that their transcription is mediated by an intracellular signalling pathway which shares, at least in part, common members.
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PMID:Epstein-Barr virus binding to CD21, the virus receptor, activates resting B cells via an intracellular pathway that is linked to B cell infection. 900 Jan


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