Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

In the present study we have analyzed the effect of a synthetic protein kinase C (PKC) activator 3-(N-acetylamino)-5-(N-decyl-N-methylamino)-benzyl alcohol (ADMB) and the natural PKC-activating tumor-promoting agents 12-O-tetradecanoylphorbol 13-acetate (TPA) and mezerein on the antigenic phenotype of T47D human breast carcinoma cells. All three agents increased the surface expression of the tumor-associated antigen BCA 225 and various cellular antigens, including HLA class II antigens, intercellular adhesion molecule 1 (ICAM-1) and c-erbB-2. Expression of the same antigens was also upregulated to various extents in T47D cells by recombinant fibroblast (IFN beta) and immune (IFN gamma) interferon. Shedding of BCA 225 from T47D cells was induced by TPA, mezerein, IFN beta and IFN gamma, whereas ADMB did not display this activity. The ability of ADMB, TPA and mezerein to modulate the antigenic phenotype of T47D cells appears to involve a PKC-mediated pathway, since the PKC inhibitor, H-7, eliminates antigenic modulation. In contrast, the ability of IFN beta and IFN gamma to enhance the synthesis, expression and shedding of BCA 225, as well as to enhance HLA class II antigens, c-erbB-2 and ICAM-1 expression, was either unchanged or modestly reduced by simultaneous exposure to H-7. Analysis of steady-state mRNA levels for HLA class I antigens, HLA class II-DR beta antigen, ICAM-1 and c-erbB-2 indicated that the ability of H-7 to inhibit expression of these antigens in TPA-, mezerein- and ADMB-treated cells was not a consequence of a reduction in the steady-state levels of mRNAs for these antigens. The results of the present investigation indicate that the biochemical pathways mediating enhanced antigenic expression in T47D cells induced by TPA, mezerein and the synthetic PKC activator ADMB are different from those induced by recombinant interferons. Furthermore, up-regulation of antigenic expression in T47D cells can occur by a PKC-dependent or a PKC-independent pathway.
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PMID:Modulation of the antigenic phenotype of human breast carcinoma cells by modifiers of protein kinase C activity and recombinant human interferons. 135 26

Homotypic aggregation of B-lymphocytes, B-cell lines and class-II-positive T cells via HLA class II molecules was examined. Signaling via DR antigens induced rapid aggregation in a dose- and time-dependent manner, maximum and stable aggregation was induced within 20 minutes. On the contrary, rapid signaling via DP or DQ required prestimulation with either PMA or anti-sIg. Aggregation was temperature and energy dependent. [Ca2+] and [Mg2+] concentrations and an intact cytoskeleton were required while neither mRNA or protein synthesis were required. Furthermore, FACS analysis revealed that aggregation was not directly correlated with cell surface expression of HLA class II molecules. Our results demonstrate that aggregation was mediated through a protein tyrosine kinase (PTK)-dependent pathway that preceded activation of protein kinase C (PKC) and failure to generate either the PTK signal or the PKC signal prevented aggregation. The contribution of a tyrosine kinase was further demonstrated by the total inhibition of aggregation following treatment with an anti-CD45 mAb.
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PMID:HLA class-II-mediated homotypic aggregation: involvement of a protein tyrosine kinase and protein kinase C. 142 32

Analysis of intracellular localization of protein kinase C (PKC) in a lymphoblastoid B cell line shows that anti-human leucocyte antigen (HLA) class II antibodies induce an increase of cytosolic and membrane PKC activities. This phenomenon is both time- and dose-dependent. The maximal PKC activation was observed after exposure to 12.5 micrograms/ml antibody for 30 to 45 min. Unlike TPA, no translocation of the cytosolic PKC was observed at any time following exposure to the anti-HLA class II antibodies. We observed a good correlation between the [3H]phorbol dibutyrate binding activity and the enzymatic activity of PKC. Using a panel of antibodies specific for the HLA class II isotypes (DP, DQ, DR), we demonstrated that PKC activation via HLA class II molecules is not restricted to one isotype. We also showed by Western blot analysis that the increased PKC activity correlates with a quantitative increase of PKC. The increase of PKC activity induced by anti-HLA class II antibodies was completely abolished by the treatment with actinomycin D, a transcriptional inhibitor, or cycloheximide, a translational inhibitor. Finally, Northern blot analysis revealed that anti-HLA class II antibodies induce an increase of the PKC alpha and PKC beta mRNAs levels which are significant after 20 min of stimulation and rose to a maximum after 60 min. In summary, our results show that increased PKC activity induced by HLA class II antibody is regulated at the transcriptional level.
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PMID:Protein kinase C (PKC) activation via human leucocyte antigen class II molecules. A novel regulation of PKC activity. 174 85

The responsiveness to IL-4 with and without costimulation with anti-IgM antibodies or phorbolester was studied in 35 cases of low grade non-Hodgkin lymphoma by analyzing enhancement of CD23 and HLA class II expression. The predominant phenotype responds directly to IL-4. Separate differentiation states can be distinguished according to coordinate or differential upregulation of CD23 and HLA class II molecules by IL-4 alone, and differences in responsiveness to anti-IgM antibodies. A particular subgroup of B-lymphoma cells defines a separate stage of B-cell differentiation. They fail to express high affinity binding sites for IL-4 and accordingly do not respond to IL-4-mediated signals. Cross-linking membrane IgM receptors or direct activation of protein kinase C via phorbolester induces IL-4 receptor expression and subsequent IL-4 reactivity.
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PMID:Regulation of IL-4 responsiveness in lymphoma B cells. 183 95

We have examined the activity and intracellular compartmentalization of protein kinase C (PKC) following activation of human B lymphocytes by anti-human leukocyte antigen (HLA) class II antibodies. 12-O-Tetradecanoylphorbol 13-acetate (TPA) treatment increased membrane-associated PKC (between five and nine times greater than the control value) and decreased cytosolic PKC (between 70% and 100% of the control value). In contrast, anti-class II antibodies induce an activation of PKC which results either in an increase of cytosolic activity or membrane-bound activity without redistribution of cytosolic PKC. The effect of TPA and HLA class II molecules on total PKC activity was comparable: when TPA induced an increase of total PKC activity so did HLA class II molecules and when TPA did not, HLA class II molecules did not. Measurement on SDS PAGE of histone phosphorylation confirmed the above results of PKC activity. Taken together, our results suggest that PKC might be implicated in HLA class II-induced B lymphocyte activation.
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PMID:Signal transduction in B lymphocytes. 205 84

We examined the signal transduction mechanism responsible for the IFN-gamma-induced HLA class II molecule expressions on glioblastoma cell lines, T98G and A172. A series of experiments demonstrated that the activation of protein kinase C (PKC) is involved in the DR and DP molecule expressions on T98G cells. In addition to the activation of PKC, calcium influx appeared to be involved in the DR and DP molecule expressions on T98G. Northern blot analyses with actinomycin D or cycloheximide revealed that these second messengers induce the transcription of DRA and B and DPA and B genes without de novo protein synthesis. Furthermore, we examined the region of the DPB gene that is responsible for IFN-gamma-induced gene transcription by gene transfer of a series of 5' and 3' deletion mutants in which the upstream region of the DPB was linked to a reporter gene, chloramphenicol acetyltransferase. By using these deletion mutants, it appeared that the region between -152 and -126 bp contains a critical IFN-gamma-responsive element. Taken together, these results suggest that IFN-gamma activates PKC and stimulates calcium influx, resulting in the induction of transcription of DRA and B and DPA and B genes without de novo protein synthesis. In DPB gene, we speculate that preexiting protein(s) phosphorylated by PKC in the presence of Ca2+ might directly bind or indirectly interact with the region between -152 and -126 bp of the upstream sequence, leading to the induction of the transcription (possibly in concert with other nuclear protein(s) bound to the promoter sequences).
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PMID:Regulation of HLA class II molecule expressions by IFN-gamma. The signal transduction mechanism in glioblastoma cell lines. 221 76

These studies examined the role of the MHC class II Ag in signal transduction using human B lymphocytes. Early events in signal transduction were considered including the intracellular calcium [Ca2+)i) flux, the activation of phospholipase C, and induction of protein phosphorylation. The (Ca2+)i was enhanced after incubation of B lymphocytes with several mAb anti-HLA class II and cross-linking with rabbit anti-mouse-F(ab')2. We have also demonstrated an enhancement of the (Ca2+)i in response to a suboptimal concentration of a monoclonal anti-IgM either in the presence of or after preincubation with a mAb anti-HLA class II. The activation of phospholipase C was assessed by measuring the generation of inositol phosphates in permeabilized B lymphocytes. mAb anti-HLA-class II of two different epitopes were used to demonstrate both the (Ca2+)i flux and the generation of inositol phosphates. Two-dimensional gel electrophoresis was used to investigate the phosphorylation pattern of resting B lymphocytes and the changes in the pattern after stimulation with soluble mAb anti-HLA-DR, immobilized mAb anti-HLA-DR, and PMA. In addition to the augmentation of phosphorylation observed with regard to phosphoproteins already present in resting B lymphocytes, new phosphorylations were observed after stimulation by any one of the reagents. Furthermore, stimulation by PMA did not result in an identical pattern to that observed after stimulation by mAb anti-HLA class II. An inhibition of the proliferative response to PMA was demonstrated after prestimulation of cells with immobilized mAb anti-HLA-DR, supporting the notion of a shared pathway of activation. In summary, these data demonstrate signal transduction via MHC class II Ag as assessed by three different measures of early events in human B lymphocyte activation and suggest that a protein kinase C pathway is at least partly involved.
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PMID:Early biochemical events after MHC class II-mediated signaling on human B lymphocytes. 239 73

Interferon gamma (IFN-gamma) induces HLA-DR and -DQ molecules and causes an accumulation of transcripts in HL-60 cells. Experiments were, therefore, designed to investigate the intracellular signaling molecules regulating the appearance of HLA class II molecules. The expression of HLA class II (DR and DQ) molecules induced by IFN-gamma was blocked by a calmodulin antagonist, W7, but not by a protein kinase C inhibitor, H7. Furthermore, a direct activator of protein kinase C, phorbol 12-myristate 13-acetate, was unable to induce HLA class II (DR) molecule expression. These results suggest that IFN-gamma induces HLA class II molecules on HL-60 cells by way of a calcium-calmodulin pathway and not by way of a protein kinase C pathway. Calmodulin is activated by a transient rise in the cytosolic free calcium. In fact, IFN-gamma evoked a calcium influx into HL-60 cells, whereas depletion of Ca2+ from culture medium resulted in a failure of IFN-gamma to induce DR expression. Furthermore, the calcium ionophore A23187 by itself induced DR molecule expression. These results suggest that IFN-gamma stimulates calcium influx by a so-called receptor-mediated calcium channel and activates the calmodulin branch of the calcium messenger system, resulting in the induction of DR molecules on the surface of HL-60 cells.
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PMID:Calcium influx and the Ca2+-calmodulin complex are involved in interferon-gamma-induced expression of HLA class II molecules on HL-60 cells. 296 98

The cross-linking of Fc receptors (FcR) on HL-60 cells inhibited the ability of recombinant IFN-gamma to induce HLA class II antigens. This appeared to be correlated with intracellular mRNA level. HL-60 lacked detectable HLA class II mRNA. IFN-gamma led to appearance of these transcripts, which were canceled by the cross-linking of FcR. Therefore, experiments were designed to investigate the intracellular signaling molecules regulating the appearance of HLA class II molecules or transcripts. The expression of HLA class II antigen induced by IFN-gamma was blocked by a calmodulin antagonist, W-7, but not by a protein kinase C (PKC) inhibitor, H-7. Furthermore, a direct activator of PKC, phorbol myristate acetate, was not able to induce the HLA class II antigen expression. These results suggest that IFN-gamma induces HLA class II antigens on HL-60 cells via a calcium-calmodulin pathway and not via a PKC pathway. Calmodulin is activated by a transient rise in the cytosolic free calcium. In fact, the measurement of calcium influx into HL-60 cells showed that a remarkable and time-dependent calcium accumulation was caused by IFN-gamma, and that depletion of Ca2+ from culture medium resulted in failure of IFN-gamma to induce class II antigen expression. Furthermore, calcium ionophore, A23187, by itself induced HLA class II antigen expression. These results suggest that IFN-gamma stimulates calcium influx and activates the calmodulin branch of the calcium messenger system, resulting in the induction of class II antigen expression on HL-60 cells. On the other hand, cross-linking of FcR elicited the accumulation of intracellular cAMP, which appeared to suppress the IFN-gamma-induced calcium influx, resulting in annulling HLA class II antigen-inducing activity of IFN-gamma. These intracellular events of HL-60 regulate the expression of HLA class II transcripts and molecules.
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PMID:Regulation of HLA class II antigen expression: intracellular signaling molecules responsible for the regulation by IFN-gamma and cross-linking of Fc receptors in HL-60 cells. 304 Aug 58

Stimulation of human B cells via HLA class II antigens leads to an increase of PKC activity as a consequence of a transcriptional upregulation of the PKC. Extending previous data, other known B-cell activators, which include anti-IgM, SAC, and TSST1, are shown here to increase the cytosolic PKC activity significantly. Human B cells express significant mRNA levels of the PKC alpha, beta, delta, epsilon, and zeta species while the gamma species is consistently absent. The levels of PKC alpha and epsilon mRNA are increased by exposure to a nonmitogenic anti-IgM antibody in a lymphoblastoid B-cell line while PKC beta and delta mRNA are instead downregulated by this agent. An anti-HLA class II antibody (D1.12) induced an increase of PKC alpha, beta, and delta mRNA. A time study of PKC mRNA levels in anti-IgM-treated cells showed that the accumulation of the PKC alpha mRNA precedes the increase of PKC enzymatic activity. Moreover, PKC beta mRNA decreased following treatment with SAC while, on the contrary, it increased following TPA, anti-HLA class II (1.35) mAb, or mitogenic anti-IgM treatment. Our results underline the complexity of signal transduction via the PKC pathway by revealing that the PKC isoforms are differentially regulated and are in keeping with the idea that they may have distinct physiologic roles in human B cells.
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PMID:Differential regulation of mRNAs encoding protein kinase C isoenzymes in activated human B cells. 786 77


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