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)

Phosphorylation of membrane glycoproteins has often been invoked as a determinant of receptor internalization and receptor trafficking in a more general sense. Here we have studied the trafficking of major histocompatibility complex (MHC) Class I molecules and transferrin receptor (Tfr) related to their phosphorylation status in the human lymphoblastoid cell line JY. High resolution isoelectric focusing (IEF) allows the visualization of phosphorylated and non-phosphorylated protein species simultaneously, using protein backbone-labeling. Analysis on IEF was combined with a neuraminidase protection assay, in which sialic acid modification of the N-linked glycans present on Tfr and Class I molecules is used as a reporter group for cell surface expression. Phosphorylation of Class I heavy chains and Tfr was induced by exposure of cells to the phorbol ester tetradecanoyl phorbol acetate. We show that 1) phosphorylation of MHC Class I molecules is restricted to the cell surface fraction, 2) phosphorylation of MHC Class I molecules by protein kinase C (PKC) is not correlated with their internalization, as no internalization of Class I molecules, phosphorylated or non-phosphorylated, could be detected, 3) the initial rate, but not the final extent of the internalization of Tfr is affected by activation of PKC, and 4) phosphorylated Tfr behaves in a manner identical to non-phosphorylated Tfr in terms of internalization. The effect of activation of PKC on internalization of Tfr therefore most likely takes place at the level of the internalization machinery. Our data concerning the internalization of MHC Class I molecules contrast with earlier studies describing constitutive internalization in the B lymphoblastoid cell line A 46 and in HPB-ALL cells.
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PMID:Activation of protein kinase C accelerates internalization of transferrin receptor but not of major histocompatibility complex class I, independent of their phosphorylation status. 142 99

Multinucleated giant cells (MGCs) are an integral part of the host immune response to infectious disease and are seen in granulomas induced by pathogens and inorganic substances. We have developed a novel system for the production and study of MGCs: Peripheral blood monocytes, when cultured in the presence of anti-class II major histocompatibility complex monoclonal antibodies (MHC mAb's) and lymphocyte-conditioned medium form MGCs within 48 h. MGC formation was strictly dependent on the presence of anti-class II MHC mAb's and lymphocyte-conditioned medium. MGC formation was not induced by mAb's to other monocyte surface proteins. None of the previously identified macrophage fusion factors (calcitriol, interleukin 4, interferon-gamma) were able to substitute for the lymphocyte-conditioned medium in our assay; however, the conditioned medium could be replaced by the phorbol ester phorbol 12-myristate 13-acetate. We have also demonstrated that the induction of MGCs by anti-class II MHC antibody and phorbol ester requires protein kinase C activity, because MGC formation was totally inhibited by the protein kinase C inhibitors staurosporine and H-7. In analyzing the signal induced by anti-class II MHC mAb's we have demonstrated that cross-linking of the class II MHC antigens with intact mAb's, or with F(ab')2 fragments of anti-class II MHC mAb's and F(ab')2 fragments of rabbit antimouse (RAM) immunoglobulin G, produced an intracellular calcium rise. Furthermore, using the calcium channel blocker verapamil, it was demonstrated that calcium channel activity is necessary for MGC formation. These data support the view that MGC formation is a tightly regulated differentiative pathway of peripheral blood monocytes that is dependent on protein kinase C second messenger systems and involves an increase in intracellular calcium concentration.
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PMID:Anti-class II MHC antibody induces multinucleated giant cell formation from peripheral blood monocytes. 154 3

The cross-linking of membrane IgM (mIgM) triggers the activation and differentiation of B lymphocytes. One very rapid result of the cross-linking is the activation of phospholipase C, the subsequent mobilization of free calcium from internal stores and the activation of protein kinase C. This is followed by a redistribution of the receptor-ligand complexes to a small cap on the B cell surface, the first step in endocytosis and antigen processing. Cross-linking of major histocompatibility complex (MHC) class I neither stimulates the release of intracellular calcium nor does it induce capping and endocytosis of the cell surface receptors. In this study, we sought to determine the role of the two carboxyterminal domains of the mu heavy chain in signal transduction, capping and endocytosis of mIgM. We took advantage of the clear differences between MHC class I molecules and mIgM, replacing the transmembrane and cytoplasmic domains of mu by their MHC class I equivalents. Our results show that the hybrid heavy chain could still associate with light chains and assemble into a tetramer on the cell surface. However, cross-linking of the hybrid cell receptor produced neither release of calcium from internal stores, nor capping and endocytosis. These observations demonstrate that the two carboxy-terminal domains of mu are critical to both signal transduction and modulation of the mIgM-ligand complexes from the surface of B lymphocytes.
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PMID:Role of the transmembrane and cytoplasmic domains of surface IgM in endocytosis and signal transduction. 154 27

Astrocytes can be induced by interferon-gamma (IFN-gamma) to express class II major histocompatibility complex (MHC) antigens. This study was undertaken to elucidate the intracellular signaling pathways involved in IFN-gamma induction of class II MHC. We examined the effects of Na+/H+ antiporter and protein kinase C (PKC) inhibitors on class II expression and Na+ influx in astrocytes. We found that amiloride and ethyl isopropylamiloride, inhibitors of Na+/H+ exchange, blocked IFN-gamma-induced class II gene expression. IFN-gamma stimulated Na+ influx, and this increased influx was inhibited by amiloride. Treatment of astrocytes with the PKC inhibitor H7 also blocked the increase in Na+ uptake induced by IFN-gamma, indicating that IFN-gamma-induced PKC activation is required for subsequent Na+ influx. IFN-gamma treatment produced an increase of total PKC activity, which was associated with a rapid translocation of PKC activity from cytosolic to particulate fraction. H7 and another PKC inhibitor, staurosporine, inhibited IFN-gamma-induced class II gene expression. However, 4 beta-phorbol 12 beta-myristate 13 alpha-acetate, a potent PKC activator, did not affect class II expression. Taken together, our data indicate that both IFN-gamma-induced PKC activation and Na+ influx are required for class II MHC expression in astrocytes but that activation of PKC alone is not sufficient for ultimate expression of this gene.
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PMID:Interferon-gamma-induced astrocyte class II major histocompatibility complex gene expression is associated with both protein kinase C activation and Na+ entry. 191 46

The inability of CD4+ T cells of HIV-1-infected patients to mount an effective immune response is widely believed to explain the increased susceptibility of these patients to opportunistic infections. Although the full explanation for T-cell dysfunction in HIV-1 infection is not yet understood, at least two fundamentally distinct mechanisms are thought to contribute: depletion of CD4+ T cells and qualitative CD4+ T-cell dysfunction independent of T-cell depletion. Many HIV-1-infected patients manifest reduced T-cell responses to recall antigens prior to measurable CD4+ T-cell depletion, and among the proposed explanations for this phenomenon are gp120-mediated interference with T-cell activation by way of inhibition of CD4-class II major histocompatibility complex (MHC) determinant interactions, gp41-mediated inhibition of protein kinase C-dependent T-cell activation, formation of gp41 cross-reactive antibodies that react with MHC class II determinants, transforming growth factor-beta (TGF-beta)-mediated immunosuppression, and decreased functions of antigen-presenting and antigen-processing cells (macrophages and bone marrow-derived dendritic cells). Despite their detection in most HIV-1-infected patients, these qualitative T-cell defects do not herald the onset of life-threatening disease. The appearance of severe clinical manifestations of AIDS, particularly opportunistic infections, occurs primarily in patients whose CD4+ T-cell count is significantly reduced. Depletion of CD4+ T cells may be a direct consequence of HIV-1 infection that occurs as a result of syncytia formation, autoantibody-mediated cytolysis, gp120-specific antibody-dependent cytolysis, and/or gp120-specific T-cell mediated cytolysis. The thymus is severely affected in patients with late-stage disease, and although there is no proof that the failure of the thymus to regenerate new T cells contributes to T-cell depletion in patients with AIDS, the likelihood seems high that this is the case. Indeed, if prolonged suppression of HIV-1 replication can be achieved with newer anti-HIV drugs or combinations of drugs, reconstitution of a normal immune system seems likely, provided that the capacity to regenerate T cells has not been irrevocably lost as a consequence of viral infection. In summary, available evidence indicates that HIV-1 uses a complex array of mechanisms to disrupt T-cell mediated immunity, but because most of these involve a direct role for HIV-1 proteins, such mechanisms are likely to be reversible if suppression of HIV-1 replication can be achieved.
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PMID:Impaired immunity in AIDS. The mechanisms responsible and their potential reversal by antiviral therapy. 198 24

T cells are activated physiologically by triggering the T-cell receptor-CD3 complex. There is evidence that invariant accessory molecules on the T-cell membrane (CD8 and CD4) are involved in the major histocompatibility complex-restricted recognition process. Moreover, binding and crosslinking of these accessory molecules to the T-cell receptor-CD3 complex exerts a positive synergistic signal, as has been shown by stimulation with crosslinked antibodies. Here we demonstrate that stimulation mediated by immobilized anti-CD3/CD8 antibodies differs from stimulation mediated solely by anti-CD3. Whereas interleukin 2 receptor expression and interferon gamma production are seen to a similar extent in both cases, a second signal provided by the additional involvement of CD8 seems to be essential for interleukin 2 production and full interleukin 2 responsiveness in CD8+ T cells. This second signal is much more sensitive to inhibition by 1-(5-isoquinolinylsulfonyl)-2-methylpiperazine, an inhibitor of protein kinase C and cGMP/cAMP-dependent kinases. Our results also show that substantial modulation of the T-cell receptor complex and most likely CD3 phosphorylation are not essential for initiating the activation of resting T cells. Instead, we found a 22- to 24-kDa phosphoprotein whose strong phosphorylation correlated reliably with T-cell activation.
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PMID:Activation of human T lymphocytes: differential effects of CD3- and CD8-mediated signals. 297 60

Phosphorylation of membrane proteins is one of the earliest steps in cell activation induced by growth-promoting agents. Since MHC (major histocompatibility complex) class I molecules are known to contain phosphorylation sites in their C-terminal intracellular domain, we have studied the regulation of HLA (human leucocyte antigen) phosphorylation in intact cells by two mitogens, namely TPA (12-O-tetradecanoylphorbol 13-acetate), a phorbol ester, and insulin, which are thought to exert their mitogenic effects through the stimulation of different protein kinases (protein kinase C and a tyrosine kinase respectively). Human B lymphoblastoid cells (526 cell line) were pulsed with [32P]Pi to label the intracellular ATP pool. Cells were then stimulated for 10 min with TPA, insulin, cyclic AMP or EGF (epidermal growth factor). The reaction was stopped by cell lysis in the presence of kinase and phosphatase inhibitors, and class I HLA antigens were immunoprecipitated with monoclonal antibodies. Analysis of labelled proteins by gel electrophoresis and autoradiography revealed that TPA increased the phosphorylation of the 45 kDa class I heavy chain by 5-7-fold, and insulin increased it by 2-3-fold. Cyclic AMP and EGF had no stimulatory effect. Analysis of immunoprecipitated HLA molecules by two-dimensional gel electrophoresis showed that TPA and insulin stimulated the incorporation of 32P into different 45 kDa molecular species, suggesting that different sites were phosphorylated by two agents. Moreover, incubation of purified class I MHC antigens with partially purified insulin-receptor tyrosine kinase and [gamma-32P]ATP revealed that class I antigens could also be phosphorylated in vitro by this tyrosine kinase. Altogether, these results therefore confirm that insulin receptors and HLA class I molecules are not only structurally [Fehlmann, Peyron, Samson, Van Obberghen, Brandenburg & Brossette (1985) Proc. Natl. Acad. Sci. U.S.A. 82, 8634-8637] but also functionally associated in the membranes of intact cells.
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PMID:Phosphorylation of class I histocompatibility antigens in human B lymphocytes. Regulation by phorbol esters and insulin. 306 55

The adenylate cyclase activator, forskolin, was found to induce expression of class I and class II major histocompatibility complex antigens in a B precursor cell line, Reh, as well as in a B lymphoid cell line, Raji. No such effect was, however, observed when the promyelocytic cells line HL-60 was treated with either forskolin or the cAMP analogue 8-bromoadenosine cyclic monophosphate. As expected, all three cell lines showed reduced proliferation upon forskolin treatment. Forskolin induced expression of class I and class II major histocompatibility complex antigens in cell lines not affected by interferon-gamma and vice versa, indicating that cAMP is not involved in the regulation of histocompatibility antigens by interferon-gamma. We also compared the effect of interferon-gamma and 12-O-tetradecanoylphorbol 13-acetate on major histocompatibility complex class I and class II expression, and despite differences in the response on the tested cell lines, we can not at this point exclude the possibility that protein kinase C is involved in the action of interferon-gamma.
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PMID:Distinct effect of forskolin and interferon-gamma on cell proliferation and regulation of histocompatibility antigen expression in hematopoietic cells. 308 31

The role of major histocompatibility complex-encoded class I molecules in the proliferation of human B lymphocytes is presently unclear. This question was addressed by investigating the effect of three individually derived anti-HLA class I monoclonal antibodies (mAb) on purified human B cells (less than 1.5% T cells) stimulated by either the T-independent mitogen Staphylococcus aureus or the phorbol ester, phorbol-12-myristate-13-acetate. The three anti-HLA class I antibodies, whether specific for gene products of the HLA-A locus (mAb 131), HLA-B locus (mAb 4E), or HLA-A, -B, and -C locus (mAb W6/32), inhibited S. aureus-induced proliferation by 70 to 90%. This inhibition was significant over a 5-day culture period, was not altered by the addition of exogenous interleukin 2 or B cell growth factor, and was not due to nonspecific cytotoxicity. In addition, the inhibition of proliferation was unchanged when the mAb were added 12 hr after the initiation of culture. The proliferative response was not affected by either of the control antibodies OKB7 and R3-367. In contrast with S. aureus-stimulated B cells, phorbol-12-myristate-13-acetate-induced proliferation was resistant to the inhibitory activity of HLA class I-specific antibodies. These results suggest that HLA class I molecules are involved in human B lymphocyte proliferation and may regulate a critical event preceding the upregulation of protein kinase C activity.
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PMID:Anti-HLA class I antibodies inhibit the T cell-independent proliferation of human B lymphocytes. 349 78

B-cell activation induced by crosslinking of surface immunoglobulin is known to stimulate hydrolysis of phosphatidylinositol to diacylglycerol and inositol trisphosphate. We now provide evidence that alternative pathways of activation may also be recruited during such activation. We utilized depletion of protein kinase C activity to determine whether this enzyme is required under all conditions for anti-immunoglobulin-stimulated B-cell activation. Although anti-immunoglobulin does not induce B-cell proliferation in protein kinase C-depleted cells, it stimulates an earlier event in B-cell activation as reflected by its ability to enhance the expression of major histocompatibility complex-encoded class II molecules. Furthermore, the ribonucleoside 8-mercaptoguanosine restores the ability of anti-immunoglobulin to induce B-cell proliferation in protein kinase C-depleted cells. This restoration is also demonstrated by an enhancement of synthesis of a nuclear protein that we find is increased during B-cell mitogenesis. These results indicate that B-cell activation stimulated by anti-immunoglobulin may recruit pathways in addition to the one dependent on protein kinase C.
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PMID:B-lymphocyte activation mediated by anti-immunoglobulin antibody in the absence of protein kinase C. 350 Apr 75


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