EC:2.7.11.13 - FACTA Search

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)

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

The regulation of the interleukin-4 receptor (IL-4R) was studied at mRNA and protein level in monocytic cells on stimulation with activators of different intracellular signaling pathways and IL-4. Activation of protein kinase C-dependent pathways with phorbol myristate acetate (PMA) or activation of protein kinase A-dependent pathways with DBcAMP and prostaglandin E2 resulted in an augmented IL-4R expression at mRNA and protein level. Transcriptional and posttranscriptional mechanisms seemed to be involved in the promotive effect of DBcAMP because the transcription rate increased 1.8-fold, and the half-life of IL-4R mRNA was prolonged to 150 minutes compared with 120 minutes in unstimulated cells. In contrast, the effect of PMA could only be ascribed to changes at transcriptional level. However, activation of Ca(2+)-dependent pathways with A23187 or stimulation with IL-4 had no effect on the IL-4R expression. The unresponsiveness to IL-4 could not be ascribed to a nonfunctional receptor because IL-4 did modulate the CD14, CD23, and HLA-DR antigen expression. These results are in contrast with IL-4R regulation in T cells, which is affected by IL-4- and Ca(2+)-dependent pathways. The discrepancy might be caused by the presence of the common IL-2 receptor gamma chain (gamma c) in T cells and the absence of the gamma c in monocytic cells, as has been shown by polymerase chain reaction. These data indicate that IL-4Rs are differentially regulated, depending on the cell type studied.
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PMID:Interleukin-4 receptor regulation in human monocytic cells. 802 87

The expression of CD23 on human tonsillar B cells is increased following treatment with interleukin 4 (IL-4) or 12-O-tetradecanoylphorbol 13-acetate (TPA), while that of surface immunoglobulins (sIgs) is increased by IL-4 but decreased by TPA. This suggests that the signaling by these effectors may result from distinct second messenger-generating systems. In this study, we attempted to elucidate the signal transduction pathways responsible for the expression of CD23 and sIgs by using different protein kinase C (PKC) and tyrosine kinase (TK) inhibitors. Our results showed that B cells expressed varying amounts of sIgs depending on different activators and inhibitors. Sphingosine, a PKC inhibitor, almost completely reversed the TPA-induced decrease in sIgM and sIgD expression. Other PKC inhibitors, e.g., H7 and staurosporine, had similar but less profound effects. In comparison, the up-regulation of CD23 by IL-4 and TPA was only partially blocked by these PKC inhibitors. TK inhibitors, such as herbimycin A and genistein, decreased both the IL-4- and TPA-induced CD23 expression by 50-80%, but had modest effects on sIgs expression. These findings indicate that CD23 and sIgs expression is regulated by independent pathways; PKC is important for the regulation of sIgs expression while the signals through TK pathways might play the major role in CD23 expression.
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PMID:Intracellular induction pathways for CD23 antigen and surface immunoglobulins in human tonsillar B cells: the roles of protein kinase C and tyrosine kinase-mediated signals. 824 59

Signal transduction by IL-4 leading to the activation of CD23(Fc epsilon RII) gene expression using human tonsillar B cells was studied. IL-4 stimulated CD23 mRNA transcription within hours (1-4 hr) which preceded the later induction of cell surface CD23. The induction of CD23 gene transcription by IL-4 was not adversely affected by cycloheximide, suggesting that post-translational modifications are accounted for the gene activation. PKC activators (PMA, diacylglycerol, indolactam) were effective inducers of CD23 gene expression, whereas calcium ionophores were not. PMA and IL-4 also displayed similar induction kinetics for CD23 mRNA. However, the signaling pathways utilized by the two agents appear distinct as shown by (1) cotreatment of IL-4 and PMA caused CD23 gene expression over the maximum level inducible by each agent alone and (2) unlike the PMA-induced CD23 expression, the IL-4-induced expression was not affected by PKC inhibitors. These results strongly suggest that IL-4 signals leading to CD23 gene activation are mediated via a PKC-independent pathway. A possible role of tyrosine kinases in the regulation of CD23 expression is discussed.
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PMID:Interleukin-4 signals regulating CD23 gene expression in human B cells: protein kinase C-independent signaling pathways. 842 25

A monoclonal immunoglobulin G1 (IgG1) antibody (mAb), designated mNI-11, was produced by immunizing mice with the lipopolysaccharide (LPS)-stimulated monocyte-like cell line U937. The reactivity of mNI-11 was tested by the indirect immunofluorescence method. The antigen defined by mNI-11 was found to be expressed on U937 cells, LPS-stimulated U937 cells, normal CD14+ cells (monocytes/macrophages), and human umbilical vein endothelial cells (HUVECs). Expression of the antigen defined by mNI-11 on HUVECs slightly increased in response to exposure to tumor necrosis factor-alpha (TNF-alpha) and phorbol myristate acetate (PMA). When the reactivity of mNI-11 and mAbs binding human differentiation antigens such as CD11a, CD11b, CD11c, CD14, CD16, CD18, CD23, CD28, CD29, CD31, CD43, CD44, CD45RA, CD49d, CD50, CD54, CD58, CD80, CD102, CD106, HLA-class I, or HLA-class II antigen was compared, no mNI-11 reactivity resembling that of these mAbs was found. mNI-11 markedly induced homotypic cell aggregation of U937 cells when they were stimulated with LPS. The mNI-11-induced aggregation of LPS-stimulated U937 cells, referred to as LPS-U937 cells, required neither Fc receptor engagement nor cross-linking of the antigen defined by mNI-11 because aggregation was induced by both F(ab')2 fragments and monovalent F(ab') fragments of mNI-11. The mNI-11-induced aggregation was blocked by the addition of ethylenediaminetetraacetate, and also when incubated at 4 degrees C. mAbs to CD11a/CD18 (lymphocyte-function associated antigen-1; LFA-1) and CD54 (intercellular adhesion molecule-1; ICAM-1) completely blocked the LPS-U937 cell aggregation induced by mNI-11. The LPS-U937 cell aggregation induced by mNI-11 was partially but not completely blocked by the protein kinase C inhibitors sphingosine and H-7, and was completely blocked by the protein-tyrosine kinase inhibitor genistein. Interestingly, mNI-11 markedly promoted LPS-U937 cell adhesion to HUVECs. The mNI-11-induced LPS-U937 cell adhesion to HUVECs was not reduced in the presence of LFA-1 (CD11a/CD18) or ICAM-1 (CD54) mAbs. On the other hand, LPS-U937 cells, whether treated with mNI-11 or not, sufficiently adhered to the extracellular matrix protein fibronectin, but not to laminin or collagen type I. However, mNI-11 did not markedly promote LPS-U937 cell adhesion to fibronectin. Adhesion of LPS-U937 cells treated with mNI-11 to fibronectin was completely blocked by CD29 (beta chain of very late antigens) mAb. The surface antigen recognized by mNI-11 had a molecular size of approximately 97 kDa under non-reducing conditions and approximately 117 kDa under reducing conditions, as determined by immunoblotting analysis. We found that mNI-11 recognizes an adhesion-associated molecule distinct from any previously reported in terms of its pattern of cellular distribution and molecular weight, and also found that mNI-11 has activity which induces cell adhesion/aggregation of U937 cells when stimulated with LPS.
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PMID:Development and characterization of a novel monoclonal antibody (mNI-11) that induces cell adhesion of the LPS-stimulated human monocyte-like cell line U937. 865 55

A monoclonal antibody (mAb), designated mNI-58A, was produced by immunizing mice with the lipopolysaccharide (LPS)-stimulated monocyte-like cell line, U937. The antigen defined by mNI-58A was widely expressed on various lymphoid cells and all cell lines examined except the erythroid cell line, K562. When the reactive patterns between mNI-58A and the mAbs to various human differentiation antigens (CD11a, CD11b, CD11c, CD14, CD16, CD18, CD23, CD28, CD29, CD31, CD43, CD44, CD45RA, CD50, CD54, CD58, CD80, CD102, CD106, HLA-class I and-class II antigen) were compared, that of mNI-58A was found to be similar to those of the leukocyte function-associated antigen-1 (LFA-1) mAbs. Using a competitive immunofluorescence binding assay it was found that the preincubation with one of the CD11a mAbs, 2F12 completely blocked the subsequent binding of mNI-58A. mNI-58A prevented the homotypic cell aggregation of the phorbol myristate acetate (PMA)-activated U937 cells (referred to as PMA-U937) and PMA-activated Epstein-Barr virus (EBV)-transformed B cell lines, B-85 and Mann. mNI-58A markedly induced the spread formation of the PMA-U937 cells following this blocking of the homotypic cell aggregation, whereas 2F12 did not under the same condition. The spread formation induced by mNI-58A was completely blocked by cytochalasin B (CyB), cytochalasin D (CyD), cycloheximide (CHX) or protein kinase C inhibitors, sphingosine and H-7. The U937 cells markedly adhered to the tumor necrosis factor-alpha (TNF-alpha)-stimulated human umbilical vein endothelial cells (HUVECs) and also to the extracellular matrix protein, fibronectin, but mNI-58A did not enhance or block these adhesion process. mNI-58A precipitated two glycoproteins with molecular weight 180 kDa and 95 kDa as determined by SDS-PAGE analysis, which were identical to the LFA-alpha (CD11a) and beta (CD18) chains of leukocyte integrin precipitated by the CD11a mAbs, respectively. Sequential immunoprecipitation studies using the CD11a mAb (2F12) also indicate that mNI-58A recognizes an epitope on the alpha-chain of the LFA-1 molecule. The ability of mNI-58A to block the PMA-U937 cells and to induce the spread formation of these cells suggests that mNI-58A is a novel mAb reacting with an epitope on the alpha-chain of LFA-1 different from those recognized with the existing CD11a mAbs.
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PMID:A novel monoclonal antibody mNI-58A against the alpha-chain of leukocyte function-associated antigen-1 (LFA-1) blocks the homotypic cell aggregation and actively regulates morphological changes in the phorbol myristate acetate (PMA)-activated human monocyte-like cell line, U937. 889 74

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

A human monoclonal antibody (mAb), designated mNKES, was generated by fusing B cells isolated from an enlarged cervical lymph node of a patient with a carotid body tumor (CBT), with human myeloma cell line KR-12 (6TG). The reactivity of mNKES was tested by the indirect immunofluorescence method. The antigen defined by mNKES was expressed on Burkitt's lymphoma cell lines Raji, Daudi, and Ramos and on B lymphoblastoid cell line IM-9. In addition, mNKES reacted with T cells stimulated with recombinant interleukin-2 (rIL-2) obtained from normal healthy donors. However, mNKES did not react with normal resting human T, B, or adherent cells (monocytes/macrophages). When the reactivity of mNKES and mouse mAbs recognizing the human adhesion-associated antigen (CD10, CD11a, CD11b, CD11c, CD14, CD16, CD18, CD23, CD28, CD29, CD31, CD43, CD44, CD45RA, CD50, CD54, CD58, CD80, CD102, CD106, and HLA class I, and HLA class II antigen) with various cell lines was compared, mNKES reactivity was found to be unique, not resembling that of any of these mouse mAbs. Interestingly, mNKES specifically and rapidly (within 2 hr) induced homotypic cell aggregation of IM-9 cells. This mNKES-induced cell aggregation was completely blocked by the addition of EDTA and when incubated at 4 degrees C. The mAbs reactive with CD11a/CD18 (leukocyte function-associated antigen-1; LFA-1) and CD54 (intercellular adhesion molecule-1; ICAM-1) completely blocked the IM-9 cell aggregation induced by mNKES, and induction of IM-9 cell aggregation by mNKES was significantly blocked in the presence of the protein kinase C inhibitors sphingosine and H-7 and completely blocked by cytochalasin B and cytochalasin D, which inhibit microfilament formation. Regarding biological function, IM-9 cells bearing surface IgG (sIgG) effectively promoted IgG-secreting activity underlying the homotypic cell aggregation induced by mNKES. The surface antigen recognized by mNKES has a molecular size of about 55 kDa, as determined by immunoblotting analysis. These findings indicate that mNKES recognizes a novel adhesion-associated antigen distinct from any previously reported adhesion-associated antigens in terms of pattern of cellular distribution and biological function and that mNKES is the first human mAb found that rapidly induces homotypic cell aggregation and effectively promotes the IgG-secreting activity of human B lymphoblastoid cell line IM-9.
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PMID:A novel human monoclonal antibody rapidly induces homotypic cell aggregation and promotes antibody-secreting activity by human B lymphoblastoid cell line IM-9. 908 89

IL-4 promotes simultaneous expression of both the CD23 and CD25 antigens in resting human B lymphocytes in a dose-dependent manner. Simultaneous three-colour flow cytometric analysis revealed that CD19+/CD23+/CD25+ triple-positive cells were derived from a CD19+/CD23-/CD25- pool, and that induction of CD23 required lower doses of IL-4 than did induction of CD25. Although the concentrations of IL-4 required for half-maximal up-regulation of CD23 (35 pM) and CD25 (150 pM) expression were different, the capacity of IL-4 to promote expression of the two markers could be mimicked by the same combination of pharmacological agents. Thus, maximal expression of CD23 and CD25 was obtained with a 30 (or 120) second pulse with phorbol ester and/or ionomycin followed by a sustained (20 minute) treatment with forskolin. Use of BAPTA to chelate intracellular calcium suggested that IL-4 driven CD25 expression required mobilization of intracellular Ca2+. Finally, down-regulation of cellular protein kinase C by chronic treatment of resting B lymphocytes with phorbol ester abolished the ability of IL-4 to elevate CD23 and CD25 expression; phorbol ester treatment similarly abrogated the ability of anti-CD40 and anti-Ig reagents to promote expression of CD25. The data are consistent with the proposal that IL-4 influences CD23 and CD25 expression via a similar signal transduction pathway which involves both protein kinase C activation and elevation of intracellular cAMP levels.
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PMID:Induction of CD25 expression in human B lymphocytes by pharmacological activators of cellular signalling pathways. 916 20

CD23 is a B cell activation antigen involved in B cell proliferation and production of IgE, of which two isoforms are known. While CD23(a) is constitutively expressed in B cells, the expression of CD23(b) is specifically induced by interleukin-4 (IL-4) or selected mitogenic stimuli. We have previously shown that CD23(b) is a primary response gene rapidly activated by IL-4 in resting human B cells. We now report the identification of a nuclear factor binding to the IL-4-response element (IL-4RE) in CD23(b) promoter in purified human tonsillar B cells. Activation of this factor, named NF-IL-4/CD23, occurred within 5 min after IL-4 treatment in a cycloheximide-insensitive manner. The activation was sensitive to phosphatases and inhibitors of protein tyrosine kinases, but it was not sensitive to inhibitors of protein kinase C. This behavior, in fact, closely correlates with the IL-4-induced activation mechanism of CD23 gene expression. In transformed B cell line Raji, where the IL-4-induced CD23 mRNA expression was hardly detected, no activation of NF-IL-4/CD23 was noted. The activation was also observed that although a sequence highly homologous to the IL-4RE of the CD23(b) promoter is present in the CD23(a) promoter, the IL-4-induced factor did not bind the sequence. These results strongly suggest that NF-IL-4/CD23 acts as an IL-4 signal transducer leading to CD23(b) gene activation in human B cells. Further characterization of this factor is now in progress, including comparison with STAT6, recently shown to be involved in IL-4 signal transduction and transcriptional activation.
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PMID:Identification and activation mechanism of the interleukin-4-induced nuclear factor binding to the CD23(b) promoter in human B lymphocytes. 950 17

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