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)

The HLA-B8, DR3 haplotype is overrepresented in several autoimmune diseases, implying that genes predisposing to these disorders are linked to this haplotype. In the patients affected by these diseases, as well as in healthy HLA-B8, DR3 individuals, various dysfunctions reflecting an impairment of T-cell activation have been found. To better characterize T-cell impairment of HLA-B8, DR3-positive healthy individuals, we analyzed the surface expression of early (CD69) and late (CD71) activation phenotypes. MNC cultures were stimulated with PHA and used for T-cell phenotyping by flow cytometry analysis. The results showed that the percentage of CD69+ T cells was significantly decreased in MNC from HLA-B8, DR3+ subjects. This defect was detected in cell cultures from all subjects studied, but it attained significance only in females in the early hours after stimulation. The difference in CD69 expression between HLA-B8, DR3-positive individuals and -negative ones was not due to differences in CD4 and CD8 ratios in the HLA-B8, DR3 cells that underwent activation, as following activation the pattern of CD4 and CD8 antigen expression was the same in both groups of subjects. Concerning the late antigen CD71, no significant difference in percentage was observed between T lymphocytes from HLA-B8, DR3+ and HLA-B8, DR3- subjects at all the times studied. The analysis of the requirements for CD69 expression has suggested that sustained PKC activation and an increase of intracellular CA2+ could be responsible for TCR/CD3-mediated CD69 induction. Thus, present data suggest a defect in the signal transduction pathway of the TCR/CD3 complex.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:T-cell activation in HLA-B8, DR3-positive individuals. Early antigen expression defect in vitro. 755 12

The T cell surface molecules CD5 and CD28 have been shown to be receptors for accessory signals in T cell activation. We here demonstrate that in the absence of any other activating stimulus, simultaneous ligation of CD5 and CD28 by mAb induces polyclonal T cell activation. Immobilization of the anti-CD28 and anti-CD5 mAb was an essential requirement for T cell stimulation. This was done either through coating of the culture plates with goat anti-mouse Ig, or by coculture with mitomycin C-treated Fc gamma R-bearing P815 mouse mastocytoma cells. Most importantly, T cells could also be stimulated with B7, the natural ligand of CD28, and anti-CD5 presented on irradiated 3T6 mouse fibroblasts co-transfected with human Fc gamma RII and with B7. Neither immobilized mAb 9.3 (anti-CD28) nor any of four different anti-CD5 mAb were mitogenic as a sole stimulus. Immobilized mAb identifying CD4, CD7, or LFA-1 were not co-mitogenic with either mAb 9.3 or one of the anti-CD5 mAb. The T cell proliferation induced by cross-linking of CD5 and CD28 is IL-2-dependent, as was demonstrated by the cell-surface expression of the p55 chain of the IL-2R, the production of IL-2, and inhibition of the proliferative response by the anti-IL-2R mAb anti-Tac. CD5/CD28 ligation induced production of TNF-alpha, but not of IL-4, and did not induce modulation of the TCR/CD3 complex. Expression of IL-2R (p55) and of CD69 preferentially occurred on CD29-low naive cells, and indicated that about 50% of the cultured cells were activated. Cell proliferation was not increased by adding monocytes to the cultures and it was inhibited by PKC inhibitors (H7 and staurosporine) and by cyclosporine A. In conclusion, our data provide evidence for a pathway of Ag-independent T cell activation via CD5 and CD28, which preferentially stimulates native T cells.
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PMID:Simultaneous ligation of CD5 and CD28 on resting T lymphocytes induces T cell activation in the absence of T cell receptor/CD3 occupancy. 767 24

Through physiologic interactions with its ligands CD58 (lymphocyte function-associated Ag-3, LFA-3) and CD59, the T cell glycoprotein CD2 plays a role in T cell signaling and promotes lymphocyte adhesion. We have recently demonstrated that the interaction of CD2 with CD58 is dynamic: TCR stimulation or treatment with the phorbol ester PMA rapidly up-regulates CD2 ligand avidity, and this regulation requires the carboxyl-terminal asparagine residue of the CD2 cytoplasmic domain. Here we have analyzed the regulation of CD2 avidity for CD58, as assessed by the binding of CD2+ cells to purified CD58 and by the formation of rosettes between CD2+ cells and SRBC. In murine T cell hybridomas transfected with human CD2, we show that, unlike CD2-mediated IL-2 production, cell surface expression of the TCR-CD3 structure is not required for up-regulation of CD2 ligand avidity. TCR-initiated up-regulation of CD2 avidity requires the activity of both protein tyrosine kinases and protein kinase C. Agents which elevate intracellular levels of cAMP also up-regulate CD2 ligand avidity and act either distal to or independently of protein kinase C and protein tyrosine kinases. Cell lines expressing single amino acid substitutions of the carboxyl-terminal asparagine of CD2 are incapable of avidity regulation by TCR signaling, PMA treatment, or elevation of intracellular cAMP levels, demonstrating that each of these stimuli utilizes a common structural element for regulating CD2 avidity. The response to both cAMP and phorbol ester treatment distinguishes the regulation of CD2 avidity from that of a second major adhesion pathway, LFA-1 (CD11a/CD18)/ICAM-1 (CD54) and from that of the TCR coreceptor CD8. These observations identify the signaling events involved in the regulation of CD2 avidity and help to define the signal transduction processes that participate in "inside-out" signaling.
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PMID:Signal transduction pathways involved in T cell receptor-induced regulation of CD2 avidity for CD58. 768 Oct 75

We have used in vitro models of thymocyte positive and negative selection in conjunction with selective inhibitors of the TCR-mediated signaling cascade to investigate the intracellular signaling events that mediate these processes. We report that Ro 31.8425, a potent and selective inhibitor of protein kinase C, which blocks the activation of mature T cells in a dose-dependent fashion, has no effect on either positive or negative selection of CD4+8+ thymocytes. In contrast, cyclosporin A fails to prevent negative selection, but inhibits positive selection through a direct effect on developing thymocytes, rather than through the perturbation of stromal cell support. Thus, our data suggest that positive and negative selection may operate via distinct intracellular signaling pathways.
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PMID:Intracellular signaling events during positive and negative selection of CD4+CD8+ thymocytes in vitro. 770 7

Previous studies have demonstrated that IL-1 receptor (IL-1R)- and TCR-initiated signals can interact synergistically to increase the rate of transcription of several lymphokine and lymphokine receptor genes during the competence phase of the activation program in T helper lymphocytes. In this report we describe how signals initiated through the type I IL-1R interact with signals from the antigen receptor to synergistically augment the transactivating properties of NF-kappa B. The synergistic antigen receptor initiated signals are mediated through protein kinase C because they can be mimicked by the phorbol ester, 12-O-tetradecanoylphorbol-13-acetate, but not with calcium ionophores; and are staurosporine sensitive but cyclosporine resistant. Gel shift analyses demonstrate that NF-kappa B nuclear translocation is stimulated primarily by IL-1 rather than by antigen receptor signals. Western blot and phosphorylation analyses demonstrate that the synergistic effect on NF-kappa B functional activity is independent of I kappa B alpha (MAD3)-NF-kappa B dissociation in the cytosol and is not associated with I kappa B nuclear translocation. The IL-1-induced NF-kappa B DNA nuclear localization is transient and can be prolonged either by an antigen receptor-initiated signal or by inhibiting protein synthesis. These results suggest that IL-1 induces both NF-kappa B nuclear translocation and the synthesis of a protein(s) responsible for terminating NF-kappa B-DNA interaction in the nucleus. Antigen receptor signals prolong NF-kappa B-DNA interaction, probably by functionally antagonizing the IL-1-induced synthesis of a protein(s) responsible for the transient NF-kappa B-DNA interaction and consequently synergistically enhance IL-1-induced NF-kappa B-dependent gene transcription.
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PMID:IL-1 receptor and TCR signals synergize to activate NF-kappa B-mediated gene transcription. 771 19

Human Jurkat T-cell clones containing stably integrated HIV-1 LTR or HTLV-1 LTR/lacZ vectors were studied to compare the responses of integrated LTRs to T-cell activation. Responses were compared also with those obtained in parallel with Jurkat cells stably expressing lacZ under the control of the cellular enhancer element NF-AT of the IL-2 promoter. Activation induced via the cell surface TCR/CD3 complex or the CD28 receptor elicited responses from the LTR of HIV-1; however, HTLV-1 LTR-directed expression was not observed following triggering of these cell surface pathways. Mitogenic activation by elevation of intracellular calcium (Ca2+) levels along with protein kinase C (PKC) signals was required for optimal expression of the HIV-1 LTR and the NF-AT element; however, increased intracellular Ca2+ was inhibitory to PKC-mediated expression from the HTLV-1 LTR. Time course experiments revealed a sustained PKC-mediated response by the HTLV-1 LTR, which was detectable in the absence of Ca2+ as early as 6 hr following stimulation. In contrast to the HTLV-1 LTR, in time course experiments the HIV-1 LTR responded to stimulation by mitogenic activation of PKC in the absence and presence of Ca2+ and by antiCD3 with lacZ expression beginning as early as 3 hr poststimulation. These results suggest that the HTLV-1 LTR appears to be refractory to several cellular pathways which are upregulatory to the HIV-1 LTR.
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PMID:Comparison of the response to T-cell activation by integrated HIV-1 and HTLV-1 LTR-lacZ vectors. 777 94

We describe a 27-year-old white man with common variable immunodeficiency (CVID) who has two healthy histoidentical brothers and one IgA-deficient sister who shares one HLA haplotype with the patient. T cells from the patient with CVID showed an impaired response to recall antigens (tetanus toxoid, E. coli), whereas his IgA-deficient sister and his two healthy histoidentical brothers responded normally. Cross-mixing experiments using isolated monocytes and T cells from the CVID patient and one histoidentical brother revealed that the patient's monocytes were fully functional in processing and presenting antigen to resting T cells of his brother, and provided normal accessory cell function for superantigen-induced activation of his brother's resting T cells. In contrast, the patient's T cells were unable to respond to antigen presented by the brother's monocytes and failed to respond with an increase in intracellular free Ca++ to stimulation with superantigen, which is known to bind to the TCR V beta-chain outside the antigen-binding groove. However, stimulation with a combination of PMA and IM, directly activating protein kinase C and increasing intracellular free Ca++ by bypassing membrane receptors, induced normal Ca++ flux. These data indicate that the patient with CVID has a defect in TCR-mediated signalling at the level of the T cells which is not present in his histoidentical healthy brothers or in his haploidentical IgA-deficient sister.
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PMID:Impaired TCR signal transduction, but normal antigen presentation, in a patient with common variable immunodeficiency. 781 63

The earliest biochemical event after cross-linking of TCR is the tyrosine phosphorylation of a variety of substrates. At least three nonreceptor tyrosine kinases have been implicated in this signaling cascade: p59fyn(T), p56lck, and ZAP-70. Recently, PLC gamma 1 has been shown to be tyrosine phosphorylated in T cells after receptor activation. This increase in tyrosine phosphorylation correlates with the increased activity of the enzyme. The substrate for PLC gamma 1, phosphatidylinositol 4,5-bisphosphate (PIP2), is hydrolyzed to the protein kinase C activator diacylglycerol and inositol 1,4,5-triphosphate (IP3), which promotes calcium release from the endoplasmic reticulum. These results lend support to the notion that calcium mobilization after TCR cross-linking is mediated by increased levels of IP3. In this study we have cloned and transfected a human p59fyn(T) cDNA in the anti-sense configuration into the human T cell line, Jurkat, resulting in decreased expression of the protein. We find that cell lines expressing significantly reduced levels of p59fyn(T) exhibit significantly lower calcium influx following OKT3 activation. However, the level of IP3 production was unchanged and IP1 and IP2 levels were elevated. These data indicate that p59fyn(T) can regulate calcium influx by a mechanism distinct from PIP2 hydrolysis.
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PMID:Human p59fyn(T) regulates OKT3-induced calcium influx by a mechanism distinct from PIP2 hydrolysis in Jurkat T cells. 782 89

The regulation by protein kinase C (PKC) of TCR-mediated changes in phosphoinositide metabolism and intracellular calcium ([Ca2+]i) was investigated in HPB-ALL T cells. Low concentrations (< 1 microgram/ml) of the anti-CD3 OKT3 mAb triggered large calcium signals but not detectable increase in D-myo-inositol 1,4,5-trisophate (IP3) production. CD3-CD4 coligation amplified the calcium signal twofold, compared with CD3 cross-linking alone, but this protocol also did not stimulate IP3 production. At higher OKT3 concentrations (> 2.5 micrograms/ml), IP3 production was detected but was not inhibited by activating PKC with phorbol ester. In contrast, PKC activation caused a marked inhibition (53 to 64%) of the CD3- or CD3-CD4-triggered calcium signals, but had only a small inhibitory effect (20 to 30%) on the release of intracellular Ca2+. PKC activation also inhibited by 47% calcium signals triggered by thapsigargin, an inhibition that was completely reversed by addition of the specific PKC inhibitor RO 31-8220 (1 microM). Addition of 1 microM RO 31-8220 caused a twofold stimulation of CD3-induced calcium signals. This effect was not mediated at the level of Ca2+ influx, because RO 31-8220 did not significantly increase thapsigargin-triggered calcium signals. However, RO 31-8220 did slightly increase the CD3-induced release of intracellular Ca2+, suggesting that amplification of Ca2+ influx may be secondary to increased release of Ca2+ from intracellular stores. Our results indicate that PKC regulates TCR-mediated changes in [Ca2+]i in HPB-ALL T cells by two distinct mechanisms. First, PKC activation causes a marked inhibition of Ca2+ influx by a mechanism independent of changes in IP3 production, possibly involving inhibition of ion channels. Second, PKC activity causes a small inhibition of intracellular Ca2+ release, most likely by promoting Ca2+ sequestration.
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PMID:Protein kinase C activation inhibits TCR-mediated calcium influx but not inositol trisphosphate production in HPB-ALL T cells. 782 90

Antigen presenting cells (APC) expressing MHC class II molecules composed of chains with part or all of the cytoplasmic domains deleted are inefficient at presenting hen egg lysozyme peptides to antigen specific T cell hybrids compared with APC that express wild-type MHC class II molecules. This effect is most apparent for mutants in which the alpha chain has been truncated. The inefficiency in antigen presentation can be amplified by pulsing the APC for 4 h with peptide rather than having peptide present throughout the presentation assay. Fixation of antigen-pulsed APC improves the capacity of APC with truncated class II molecules to stimulate T cell hybrids. Fixation of APC prior to exposure to antigen also leads to significant improvement in antigen presentation by the truncated class II molecules. Because the inefficiency of a given hybrid for antigen presentation does not correlate with its ability to transduce a signal as measured by protein kinase C translocation, we suggest that defects in this pathway are not the only cause of impaired antigen presentation. However, because previous studies have demonstrated the need for an intact cytoskeleton for successful antigen presentation, we propose that the carboxy truncated class II molecules are inefficient in antigen presentation because they are unable to generate the signal that ultimately leads to their interaction with the cytoskeleton. These observations underscore the complexity of the events that are required for achieving effective interactions between MHC class II molecules and TCR, and suggest, with regard to efficient antigen presentation, that the physical state of the class II molecules is at least as important as their signal transducing capacity.
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PMID:Truncation of the A alpha chain of MHC class II molecules results in inefficient antigen presentation to antigen-specific T cells. 782 38


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