EC:2.7.11.13 - FACTA Search

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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)

To characterize the requirements for the induction of an anergic state in immunocompetent cells we examined the effect of an increase in intracellular calcium concentration on the subsequent responsiveness of cytolytic T cells to antigenic stimulation in vitro. Pretreatment of a murine cytolytic T cell clone with the calcium-ionophore A23187 resulted in the induction of an anergic state characterized by a decrease in cytolytic activity and granule exocytosis upon Ag-specific stimulation. Furthermore, IFN-gamma synthesis declined whereas de novo synthesis of a yet unidentified protein with a molecular mass of 33 kDa as well as proliferative response of cells in response to exogenous IL-2 were unaffected. This state of partial unresponsiveness 1) could be prevented by concomitant pretreatment of cells with cyclosporin A or protein synthesis inhibitors and 2) was reversible within 48 h. Biochemical analysis of TCR-induced intracellular activation revealed a block in signal transduction before the activation of protein kinase C because cellular unresponsiveness could be bypassed by the phorbol ester PMA plus the calcium-ionophore A23187. However, phosphatidylinositol turnover was markedly inhibited in unresponsive cells that also did not show a calcium influx on stimulation with concanavalin A. We conclude that a rise in intracellular calcium in cytolytic T cells might not only be necessary for cellular activation but may also trigger the induction of a partial unresponsiveness to antigenic stimulation due to an inhibition in the early phase of signal transduction.
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PMID:Functional and biochemical characterization of a calcium-ionophore-induced state of unresponsiveness in a cytolytic T cell clone. 131 47

Ligation of the TCR on Jurkat T lymphoblastoid cells causes an 1,4,5-inositol trisphosphate-dependent rise in intracellular cytoplasmic calcium that is inhibited by PMA, a potent activator of protein kinase C. Consequently, protein kinase C is widely believed to mediate feedback inhibition of TCR-activated phospholipase C. We have now extended these studies to normal unblasted human CD4+ T lymphocytes, examining the PMA sensitivity of both the TCR complex-mediated release of total inositol-phosphates and the resynthesis of the parent phosphoinositides. In contrast to Jurkat, in which PMA inhibited release of 1,4,5-inositol trisphosphate by 60% and total inositolphosphates by 40% (50% inhibitory concentration, 5.6 nM), normal cells displayed a marked increase in anti-CD3-induced phosphatidylinositol (PI) cycling in the presence of PMA. Both total inositolphosphate release and PI resynthesis were maximally elevated (88% and 342%, respectively) by a PMA concentration that also optimally supported a subsequent proliferative response; the ED50 was at least 11.7-fold lower than that for the inhibitory effect of PMA on breakdown of total Jurkat PI. A PKC nonactivating phorbol ester had no effect. If anti-CD3 was replaced by the mitogenic lectin PHA, PI resynthesis was similarly up-regulated by PMA in these highly purified cells. The PMA up-regulatory phenomenon was not a simple consequence of cell blastogenesis, inasmuch as there was no early effect on the non-signaling-associated phosphatidylethanolamine compartment after CD3 stimulation. Thus, PKC activation appears to accelerate TCR-linked PI metabolism in normal Th cells, in contrast to the feedback inhibitor paradigm observed in Jurkat and other tumor cell systems.
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PMID:A protein kinase C-activating phorbol ester accelerates the T cell antigen receptor-stimulated phosphatidylinositol cycle in normal human CD4+ T cells. 134 21

The defective virus found in the LP-BM5 mixture of murine leukemia viruses induces a severe immune deficiency disease in C57BL/6 mice that is characterized by the activation and expansion of T and B cells that become unresponsive to normal immune stimuli. The nature of the biochemical lesion in these defective lymphocyte populations remains unknown. Flow cytometric analysis of the T cell population in infected animals has demonstrated expansion of both CD4+ and CD8+ subsets. Despite chronic expansion in vivo, CD4+ T cells by wk 4 postinfection failed to up-regulate cell surface IL-2R expression, produced IL-2, or proliferate in vitro in response to either Con A, Staphylococcal enterotoxin super-antigens, or anti-CD3 stimulation. Exogenous IL-2 did not restore the proliferative response and also failed to up-regulate IL-R expression on CD4+ T cells from infected mice, even though basal IL-2R expression was initially elevated compared to normals. In contrast, CD4+ T cells from infected mice could be induced to proliferate by stimulation with PMA and ionomycin resulting in IL-2R up-regulation, IL-2 production, and proliferation. Moreover, proliferation could also be induced by anti-CD3 plus PMA, although anti-CD3 plus ionomycin was without effect. These studies suggest that chronic expansion of CD4+ T cells in infected mice is probably not maintained by normal TCR signaling, which appears defective in these cells. In addition, the lesion in biochemical signaling appears to result in defective activation of protein kinase C, which can be overcome by direct activation with PMA.
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PMID:T-deficient transmembrane signaling in CD4+ T cells of retroviral-induced immune-deficient mice. 135 Feb 88

In this report we describe a novel pathway of human T cell activation and proliferation involving the CD5 surface Ag. The CD5-specific Cris1 mAb induces by itself monocyte-dependent proliferation of PBMC. Among a panel of CD5-specific mAb (Leu1, OKT1, LO-CD5a, F101-1C5, and F145GF3), only the F145GF3 mAb shared this property with Cris1. The analysis of the biochemical pathway involved in this activation showed the lack of detectable hydrolysis of inositol phosphates or early increments in the intracellular cytosolic calcium concentration, after triggering cells with the mitogenic CD5 mAb. However, stimulation with CD5 induces activation of protein kinase C, as measured by phosphorylation of a specific peptide substrate (peptide GS), which can be inhibited by a pseudosubstrate peptide inhibitor. Stimulation with CD5 mAb induces also tyrosine kinase activity, with a substrate pattern that differs from that induced after triggering lymphocytes through the TCR-CD3 complex. On the other hand the IL-2/IL-2R pathway seems involved in the CD5-mediated proliferation of PBMC because anti-IL-2R-specific mAb inhibits CD5-induced proliferation, and stimulation with mitogenic CD5 mAb induces production of IL-2 and expression of IL-2R alpha and beta chains. Therefore, the triggering of the CD5 Ag can induce IL-2- and monocyte-dependent human T cell proliferation by a biochemical pathway that differs, at least in the first stages, from the one that mediates TCR-CD3 complex-induced T cell activation.
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PMID:Intracellular events involved in CD5-induced human T cell activation and proliferation. 137 22

Apoptosis is induced in immature thymocytes and T cell hybridomas upon stimulation via the TCR/CD3 complex. This phenomenon appears to be related to negative selection of T cell clones in the thymus. In T cell hybridomas, it has been shown that glucocorticoids inhibit TCR/CD3-mediated apoptosis, whereas glucocorticoids alone induce apoptosis. All-trans-retinoic acid (RA) at 0.1 to 10 microM also inhibited TCR/CD3-mediated apoptosis assessed by DNA fragmentation and cytolysis, but RA alone hardly induced apoptosis. RA enhanced the effects of glucocorticoids to induce apoptosis and to inhibit TCR/CD3-mediated apoptosis. TCR/CD3-mediated stimulation can be mimicked by the combination of ionomycin, a calcium ionophore, and PMA, an activator of protein kinase C, and the combination-induced DNA fragmentation was also inhibited by RA. RA, however, failed to inhibit the combination-induced increase in intracellular Ca2+ concentration or the combination-induced translocation of protein kinase C from the cytosolic fraction to the particulate fraction. Time course studies of RA addition into the culture indicated that a 3- to 6-h delay in the addition of RA did not reduce its inhibitory effect on anti-CD3-induced DNA fragmentation. These results suggest that RA interferes with the apoptotic process at some point after its initiation stage. It has been suggested that negative selection involves not only TCR/CD3-mediated signals but also LFA-1-mediated signals. RA at 0.01 to 1 microM significantly inhibited the induction of thymocyte apoptosis by co-immobilized mAb to CD3 and LFA-1 molecules. RA by itself hardly induced apoptosis, but enhanced glucocorticoid-induced apoptosis. The results suggest that thymic selection might be influenced by RA at near-physiologic concentrations. The receptors of glucocorticoids and RA belong to the erbA oncogene-related steroid hormone receptor superfamily. Thyroid hormones and 1 alpha,25-dihydroxy vitamin D3, whose receptors also belong to the superfamily, failed to modulate apoptosis in both T cell hybridomas and thymocytes.
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PMID:Retinoic acids inhibit activation-induced apoptosis in T cell hybridomas and thymocytes. 143 Nov 7

MRL-lpr/lpr (lpr) mice develop a polyclonal accumulation of abnormal peripheral T lymphocytes, which bear surface alpha beta TCR, CD3, and the B220 isoform of CD45, but lack CD4, CD8, and CD2. These T cells have a constitutively phosphorylated CD3 zeta chain and manifest a defect in signal transduction that results in a lack of IL-2 production and proliferation. We investigated whether this signaling abnormality might contribute to their accumulation via a defect in T cell elimination in the periphery. T cell deletion occurs through a process of programmed cell death with DNA degradation, or apoptosis. Viable lymphocytes from lpr mice were found to undergo rapid programmed cell death in culture within 4 h without additional activation, which was not observed in lymphocytes from normal MRL-+/+ or C57BL/6-+/+ mice. Both nonmature B220+ and mature B220- T lymphocytes from lpr mice display this accelerated programmed cell death, indicating that this is a defect affecting all peripheral T lymphocytes in lpr mice. In vitro apoptosis of lpr T cells could be inhibited with PMA, a stimulator of protein kinase C. Thus, the massive accumulation of T lymphocytes in the lymphoid tissue of lpr mice is not due to a defect in their ability to undergo programmed cell death in vitro. The activation state of lpr T cells may contribute to their rapid degradation of DNA in vitro.
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PMID:Accelerated programmed cell death of MRL-lpr/lpr T lymphocytes. 152 90

An initial event in T cell activation is the specific adherence of T cells via their T cell receptor to the MHC peptide complex. We have studied this adherence by incubating T cells with preformed HLA DR4Dw4 peptide complexes attached to a solid support. Adherence of sodium 51Cr-labeled T cell clones specific for the influenza hemagglutinin peptide, HA 307-319, was maximal after 15 min and was specific for the HLA DR4Dw4-HA 307-319 complex. The binding was temperature dependent and could be blocked with azide or protein kinase C inhibitors, indicating that for adherence the T cells need to be metabolically active and have a functioning protein kinase C pathway. The adherence could be blocked with CD4- or CD3-reactive murine mAb, suggesting that the TCR and CD4 molecules work in concert to induce strong adherence to the HLA DR4Dw4-HA 307-319 complex. A subsequent event in T cell activation is proliferation, which is thought to need additional proteins such as IL-1 or other adhesion molecules. MHC peptide complexes coated on microtiter plates also induced proliferation in the human T cell clones. Removal of any monocytes by treatment of human T cell clones with anti-CD14 in conjunction with C, followed by purification over a nylon wool column, did not abrogate proliferation. After prolonged culture of the T cell clones in plates coated with peptide-pulsed HLA DR4Dw4 in the presence of IL-2, the T cell clones continued to proliferate in response to peptide. These results suggest that human T cell clones do not require a second signal from a monocyte or other APC to proliferate.
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PMID:Purified HLA class II peptide complexes can induce adherence and activation of peptide-specific human T cell clones. 153 49

Stimulation of an IL-2-dependent variant of the Th2 clone D10.G4.1 with antibodies (Ab) specific for CD3 epsilon or the TCR-alpha beta caused either activation of the clone to secrete the autocrine lymphokine IL-4, or lethal activation in which the cells secreted high quantities of IL-4 but then died within 2 days. High densities of immobilized Ab delivered a lethal signal, whereas soluble forms of Ab and low densities of immobilized Ab caused productive activation in which cell viability was maintained. Lethal activation was not prevented by accessory cells, IL-1, or IL-2, or by co-cross-linkage of CD4 and TCR. The lethal signal was not mediated via a soluble effector from the activated cells. Lethal signaling was insensitive to cyclosporin A or dexamethasone. Studies with activators of protein kinase C (PKC), and PKC inhibitors, indicated that direct activation of PKC was not sufficient for lethal signaling. Nor could direct activation of PKC prevent the lethal signal. The lethal signal was not caused by Ca2+ mobilization mediated by Ca2+ ionophore and there was no evidence of apoptosis. The combination of a PKC activator and Ca2+ ionophore was not lethal, thereby showing that together these events are not sufficient. That these signal pathways were not necessary for lethal activation was evidenced by their inability to lower the density of immobilized anti-CD3 required to cause cell death. In this model, ligation of the TCR specifically activates a Ca2+/PKC-independent lethal signal transduction pathway.
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PMID:Stimulation of a T helper cell class 2 clone with immobilized anti-T cell receptor antibody activates a Ca2+ and protein kinase C-independent lethal signaling pathway. 153 50

The induction of T cell proliferation and differentiation into mature effector cells is dependent on two principal exogenous signals that are provided by the antigen or mitogen and IL2. The enzyme protein kinase C (PKC) has a major role in the antigen-receptor signalling pathway in T cells, but appears not to be involved in signalling via the IL2-receptor (IL2-R). Since both pathways trigger a series of sequentially coordinated transcriptional events in which numerous genes are activated, we tested whether a T cell mitogen acting via the TCR/CD3 complex, and IL2, affect the expression of the conventional, Ca(2+)-dependent, PKC genes (alpha, beta and gamma) in T cells. Stimulation of human peripheral blood lymphocytes or an enriched population of human T cells with phytohemagglutinin resulted in augmented mRNA levels of PKC alpha and PKC beta, but not PKC gamma-gene. The response peaked at 24-48 hr when a 3-5-fold increase was observed. Stimulation of IL2-R alpha-expressing T cells with human recombinant IL2 induced cell proliferation and transcription of the IL2-R alpha gene (greater than 100-fold), but did not change mRNA levels of PKC alpha or PKC beta genes. The results suggest that stimulation of human T cells with mitogens acting via the TCR/CD3 complex, that involve activation of PKC, is accompanied also by a late activation of selected PKC genes. By contrast, agonists such as IL2, that operate via a different signalling pathway, do not modify the expression of any of the known conventional PKC genes.
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PMID:Mitogen-induced human T cell proliferation is associated with increased expression of selected PKC genes. 163 62

Ligation of the antigen receptors on both T and B lymphocytes induces phosphoinositide (PI) hydrolysis, Ca(2+)-mobilization and protein kinase C activation. The activation of the phosphoinositide-specific phosphodiesterase (PPI-PDE) following crosslinking of surface Ig receptors on B cells is controlled by an uncharacterized guanine nucleotide-regulatory (G) protein. Here we have used permeabilized murine T cells (both resting T cells and a conalbumin-specific CD4-positive T cell clone) to investigate a role for G protein(s) in coupling the TCR to the PPI-PDE. We found that anti-TCR McAb (or processed antigen)-induced PI hydrolysis cannot be uncoupled by permeabilizing T cells, as occurs with classical G protein-linked receptors. Furthermore, the TCR-mediated release of inositol phosphates in permeabilized T cells was not enhanced by non-hydrolyzable analogs of GTP, nor inhibited by GDP analogs. These findings therefore argue strongly against the concept that TCR-mediated PI hydrolysis is G-protein controlled.
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PMID:Antigen receptor-mediated phosphoinositide hydrolysis in murine T cells is not initiated via G-protein activation. 165 2

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