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)

To understand further the roles that negative regulatory signals may play in B cell immune responses, we compared three inhibitors of B cell proliferation: cross-linking CD19 with monoclonal antibody (mAb), signaling through Fc receptors by intact anti-mu mAb, and transforming growth factor-beta (TGF-beta). Each agent was tested for its ability to block proliferation and specific activation events induced in human tonsilar B cells activated by either cross-linking surface immunoglobulin, signaling through CD20, or direct activation of protein kinase C (PKC) by phorbol 12-myristate 13-acetate. We found that each inhibitor was functionally distinct. Both anti-CD19 mAb and anti-mu mAb inhibited anti-immunoglobulin activated cells and anti-CD20-activated cells, but neither inhibited cells activated by phorbol 12-myristate 13-acetate. TGF-beta, on the other hand, inhibited equally profoundly cells activated by each of the three regimens. These results suggest that TGF-beta blocks B cell activation at a step following the activation of PKC, whereas both signaling through CD19 and Fc receptor block early steps in the PKC activation pathway. Signaling through anti-CD19 mAb was unique in that proliferation of anti-immunoglobulin-activated cells was reduced on day 3 and then augmented subsequently. With all other inhibitory combinations the block was permanent. We conclude that each of these three inhibitors has unique important functions and therefore suggest that the effectiveness of negative signaling in B cell immune regulation will depend on the combinations of specific inhibitors modulating a specific activation program.
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PMID:Signaling through CD19, Fc receptors or transforming growth factor-beta: each inhibits the activation of resting human B cells differently. 169 30

We have investigated the mechanism by which the membrane protein complex of the B lymphocyte that contains CD19 and CR2 activates phospholipase C (PLC) to induce a rise in [CA2+]i. The CD19 complex resembled the membrane IgM complex in that three protein tyrosine kinase inhibitors suppressed increases in [Ca2+]i and inositol bisphosphate and inositol triphosphate generation. However, the activation of PLC by the CD19 complex could be distinguished from that by the membrane IgM complex by slower kinetics of generation of inositol phosphates, resistance to inhibition by activators of protein kinase C, and different pattern of tyrosine-phosphorylated cellular substrates. Western blot analysis of lysates from cells stimulated by the CD19 complex demonstrated a single new phosphotyrosine-containing protein of 85 kDa, whereas multiple other phosphotyrosine-containing proteins were present in cells activated by the mIgM complex. In particular, PLC-gamma 1, which is a substrate for the protein tyrosine kinase activated by the mIgM complex, was not tyrosine-phosphorylated in cells stimulated by the CD19 complex. Cross-linking the two complexes together caused a synergistic increase in [CA2+]i which was neither suppressed by activation of protein kinase C nor associated with increased tyrosine-phosphorylation of PLC, characteristic of the CD19 pathway. Therefore, the B cell has two signal transduction complexes, associated with membrane IgM and CD19, that activate PLC by different mechanisms and that can synergistically interact to enhance this function by the CD19 pathway.
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PMID:The CD19 complex of B lymphocytes. Activation of phospholipase C by a protein tyrosine kinase-dependent pathway that can be enhanced by the membrane IgM complex. 171 83

Transmembrane signals generated following mAb binding to CD19, CD20, CD39, CD40, CD43, Leu-13 Ag, and HLA-D region gene products induced rapid and strong homotypic adhesion in a panel of human B cell lines. Lower levels of adhesion were also observed after engagement of CD21, CD22, and CD23. Adhesion induced by mAb binding to these Ag was identical with respect to the kinetics of adhesion and the morphology of the resulting cellular aggregates, and was distinct from PMA-induced adhesion in both of these properties. Adhesion was not observed in response to mAb binding to MHC class I, CD24, CD38, CD44, CD45RA, or CD72. In contrast to B cell lines, homotypic adhesion was not induced in two pre-B cell lines, in spite of their high level expression of CD19 and HLA-D. Adhesion induced by suboptimal stimulation through these surface Ag or by PMA was mediated primarily through LFA-1 and ICAM-1. However, optimal stimulation through CD19, CD20, CD39, CD40, and HLA-D induced strong homotypic adhesion that was not blocked by anti-LFA-1 mAb. This alternate pathway of adhesion was also observed in LFA-1-deficient cell lines and in the presence of EDTA, suggesting that adhesion was not mediated by integrins. Adhesion in response to engagement of cell-surface Ag was unaffected by H7 or genestein, but was significantly inhibited by staurosporine, and was completely ablated by sphingosine and herbimycin. These studies indicate that engagement of multiple B cell-surface molecules initiates a signal transduction cascade that involves tyrosine kinases but not protein kinase C, and which leads to homotypic adhesion. Furthermore, adhesion was mediated by at least two distinct cell-surface adhesion receptors: LFA-1/ICAM-1 and a heretofore unknown adhesion receptor.
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PMID:Transmembrane signals generated through MHC class II, CD19, CD20, CD39, and CD40 antigens induce LFA-1-dependent and independent adhesion in human B cells through a tyrosine kinase-dependent pathway. 172 39

We examined the levels of protein kinase C (PKC) activity and the expressions of its three major isozymes, designated types I (gamma), II (beta), and III (alpha), in the cytosol and particulate fractions of cells from patients with acute myelogenous leukemia (AML), acute lymphocytic leukemia (ALL), and chronic lymphocytic leukemia (CLL), in an attempt to elucidate the cell type- or lineage-specific expression of these isozymes. The levels of PKC activities in the cytosol and particulate fractions from AML cells were higher than those from ALL or CLL cells. The average PKC activities of AML cells, ALL cells, and CLL cells were 18.7, 12.2, and 11.3 pmol/min/10(8) cells, respectively, in the cytosol fractions and 4.4, 3.1, and 2.6 pmol/min/10(8) cells, respectively, in their particulate fractions. M1 cells (French-American-British classification) and AML cells with T-lymphocyte-associated surface antigens, such as CD2 and CD7, had significantly lower PKC activities among AML cells. Immunoblot analyses using monoclonal antibodies against each isozyme revealed that all three isozymes were broadly distributed on leukemic cells with considerable variability in the level of expression. All lymphoid leukemic cells expressed PKC-gamma in the cytosol fractions, albeit a minor component; however, this type was observed in cells from only half the number of AML patients. Those AML cells with cytosolic PKC-gamma usually expressed lymphoid surface antigens, such as CD2, CD7, and CD19. On the other hand, cytosolic PKC-beta and PKC-alpha were commonly observed in all types of leukemic cells. AML cells expressed these two types at almost equal levels, but in lymphoid cells, expressions of PKC-beta were usually more abundant than those of PKC-alpha. These data suggest that AML cells with lymphoid antigens might have a lower PKC activity but more predominant expression of cytosolic PKC-gamma than the usual AML cells.
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PMID:Expression of three major protein kinase C isozymes in various types of human leukemic cells. 186 47

In an attempt to compare B cell chronic lymphocytic leukemia (B-CLL) with its normal cellular counterpart, the cell surface phenotype of 100 cases of B-CLL was determined by using a panel of monoclonal antibodies (MoAbs) directed against B cell-restricted and -associated antigens. The majority of B-CLL cells expressed Ia, B4 (CD19), B1 (CD20), B2 (CD21), surface immunoglobulin (sIg), and T1 (CD5) but lacked C3b (CD35) receptors. In contrast, the overwhelming majority of small unstimulated B cells expressed Ia, B4, B1, B2, sIg, and C3b receptors but lacked detectable T1. Small numbers of weakly sIg+ cells could be identified in peripheral blood and tonsil that coexpressed the B1 and T1 antigens. Approximately 16% of fetal splenocytes coexpressed B1, T1, weak sIg, B2, and Ia but lacked C3b receptors and therefore closely resembled most B-CLL cells. With the phenotypic differences between the majority of small unstimulated B cells and B-CLL cells, we examined normal in vitro activated B cells and B-CLL cells for the expression of B cell-restricted and -associated activation antigens. Of 20 cases examined, virtually all expressed B5, and approximately 50% of the cases expressed interleukin-2 receptors (IL-2R) and Blast-1. Normal B cells were activated with either anti-Ig or 12-0-tetradecanoylphorbol-beta-acetate (TPA) and then were examined for coexpression of B1, T1, and the B cell activation antigens B5 and IL-2R. Only cells activated with TPA coexpressed B1 and T1 as well as B5 and IL-2R. B cells activated with either anti-Ig or TPA proliferated in the presence of IL-2, whereas B-CLL cells did not, although they all expressed the identical 60-kilodalton proteins by immunoprecipitation. These studies are consistent with the notion that B-CLL resembles several minor subpopulations of normal B cells including a population of B cells that are activated in vitro directly through the protein kinase C pathway.
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PMID:Normal cellular counterparts of B cell chronic lymphocytic leukemia. 349 27

As presently reported, both ionizing radiation and engagement of the CD19 receptor are capable of inducing apoptosis in B-lineage acute lymphoblastic leukemia (ALL) cells. In both instances, activation of tyrosine kinases appears to be a proximal and mandatory step, since it can be prevented by the tyrosine kinase inhibitor genistein. This common biochemical signaling pathway involves the rapid activation of the Src family tyrosine kinase LCK (p56lck), which is physically associated with the CD19 receptor, and enhanced tyrosine phosphorylation of multiple substrates leading to stimulation of phosphoinositide turnover, and activation of protein kinase C. Importantly, engagement of the CD19 receptor promoted radiation-induced apoptosis in radiation-resistant B-lineage ALL cells in a cell type-specific fashion. Our results prompt the hypothesis that clonogenic B-lineage ALL blasts with an inherent or acquired resistance to radiation could be radiosensitized in clinical settings using anti-CD19 MoAb B43 or its homoconjugate as adjuncts.
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PMID:Engagement of the CD19 receptor on human B-lineage leukemia cells activates LCK tyrosine kinase and facilitates radiation-induced apoptosis. 750 28

IL-4 synergizes with signals delivered through CD40 both for the induction of CD23/Fc epsilon RII expression and for IgE synthesis. Moreover, engagement of CD40 on the B cell surface by MoAb overcomes the ability of interferons, transforming growth factor-beta, or anti-CD19 to inhibit IL-4-dependent change. We now report that occupancy of CD40 relieves potent suppression of IL-4-induced CD23 production by glucocorticoid or the relatively broad-acting kinase inhibitor staurosporine. Interruption of the IL-4 signal was observed with concentrations of staurosporine considered to be selective for protein kinase C (PKC) inhibition (IC50 = 10 nM) but not with genistein or tyrphostins, effective inhibitors of tyrosine kinase activity. On ligation of CD40, staurosporine no longer inhibited the IL-4 signal: at concentrations of between 1 and 20 nM, staurosporine actually increased by as much as 100% the rate of CD23 production stimulated on simultaneous activation through CD40 and IL-4R. Such augmentation was not observed when the more specific PKC inhibitor RO-31-8220 was used; indeed, CD40 engagement was unable to overcome the ability of this inhibitor to block IL-4-promoted CD23 induction (IC50 = 10 microM). Occupancy of CD40 did, however, thwart completely the usual ability of prednisolone to inhibit the IL-4 signal leading to CD23 induction. Activation through CD40 left inhibition of phorbol ester-induced CD23 expression by staurosporine, RO-31-8220, or glucocorticoid unchecked. These findings further highlight the intimate level of cross-talk existing between CD40 and IL-4R on resting B lymphocytes to promote CD23 expression, a phenotypic change which preludes IgE synthesis.
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PMID:Inhibition by glucocorticoid and staurosporine of IL-4-dependent CD23 production in B lymphocytes is reversed on engaging CD40. 768 90

We have previously reported that the phorbol ester, 12-O-tetradecanoylphorbol 13-acetate (TPA) induces further differentiation of the human acute lymphoblastic leukemia cell line Reh to a monocytoid B lymphocyte stage. In the present study, we investigated the differentiating capacity of another protein kinase C (PKC) activator, bryostatin 1 (bryo). Reh cells were treated in vitro with TPA, bryo, or interferon-alpha (IFN-alpha) for a period of 5 days during which cells were analyzed for changes in growth patterns, morphology, cytochemistry, and surface phenotype. Bryo caused a dose-dependent growth inhibition of Reh cells. Morphologically, the treated cells expressed monocytoid features with development of filopodia and numerous vacuoles indicating phagocytic activity. Bryo induced similar phenotypic changes to TPA, including induction of CD11c, increased expression of CD22 and down-regulation of CD10 and CD19. Enzymatically, bryo, like TPA, induced tartrate-sensitive acid phosphatase expression but failed to induce periodic acid Schiff (PAS) and nonspecific esterase (NSE). Bryo inhibited the TPA action on NSE and CD10. IFN-alpha showed additive growth inhibitory and phenotypic effects to bryo. Collectively, our findings indicate that bryo is capable of inducing further differentiation of the Reh cells along the B cell lineage similar to those of TPA.
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PMID:Bryostatin 1-induced modulation of the acute lymphoblastic leukemia cell line Reh. 839 68

We have identified a Ser/Thr kinase associated with the B cell receptor (BCR) complex as protein kinase C mu (PKC mu). PKC mu activity is up-regulated after cross-linking the BCR and CD19 on B cells, and PKC mu co-precipitates with Syk and phospholipase C-gamma 1/2 (PLC gamma 1/2). In vitro phosphorylation of fusion proteins showed that both Syk and PLC gamma 1 are potential substrates of PKC mu in vivo. Analysis of mutants of the chicken B cell line DT40 deficient in either Syk, Lyn, Btk, or PLC gamma 2 revealed that BCR-induced activation of PKC mu, like activation of PLC gamma 2, requires Syk and is partially regulated by Btk, but is Lyn independent. PKC mu can down-regulate the ability of Syk to phosphorylate PLC gamma 1 in vitro. Thus, PKC mu may function in a negative feedback loop regulating BCR-initiated signaling cascades.
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PMID:Protein kinase C mu (PKC mu) associates with the B cell antigen receptor complex and regulates lymphocyte signaling. 888 68

CD19 plays a critical role in regulating B cell responses to Ag. We have studied the mechanism by which coligation of CD19 and the B cell Ag receptor, membrane Ig (mIg), augments signal transduction, including synergistic enhancement of release of intracellular Ca2+ and extracellular signal-regulated protein kinase 2 (ERK2) activation, in Daudi human B lymphoblastoid cells. The pathway leading to ERK2 activation was further dissected to determine how signals derived from CD19 and mIgM interact. The best-defined pathway, known to be activated by mIgM, consists of the sequential activation of the mitogen-activated protein kinase (MAPK) cascade that includes Ras, Raf, MAPK kinase 1 (MEK1), and ERK2. Ligation of CD19 alone had little effect on these. CD19-mIgM coligation did not increase activation of Ras or Raf beyond that induced by ligation of mIgM alone. In contrast, coligation resulted in synergistic activation of MEK1. Furthermore, synergistic activation of ERK2 occurred in the absence of changes in intracellular Ca2+, and was not blocked by inhibition of protein kinase C activity and represents a separate pathway by which CD19 regulates B cell function. Thus, the CD19-dependent signal after CD19-mIgM coligation converges with that generated by mIgM at MEK1. The intermediate kinases in the MAPK cascade leading to ERK2 integrate signals from lymphocyte coreceptors.
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PMID:Convergence of CD19 and B cell antigen receptor signals at MEK1 in the ERK2 activation cascade. 983 70


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