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)

Glucocorticoid hormones (GCH) and IL-2 induce apoptotic cell death by a PKC-dependent mechanism. IL-4 counteracts apoptosis by inhibiting PKC activity. GCH and IL-2 show antagonistic effects on apoptosis when administered together. These data indicate that PKC activation in response to different stimuli can both enhance or reduce thymocyte survival.
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PMID:Glucocorticoid-induced DNA fragmentation: role of protein-kinase-C activity. 140 24

The effect of glucocorticoids on interleukin-5 (IL-5) gene expression was assessed in human peripheral blood mononuclear cells. IL-5 expression was stimulated by phytohaemagglutinin (PHA), IL-2, phorbol myristate acetate (PMA) or Ionomycin. A semi-quantitative assay for IL-5 gene expression was developed, based on RNA extraction and the polymerase chain reaction. IL-5 expression in response to PHA was profoundly inhibited by 10(-6) M dexamethasone, and significant inhibition was detected at doses of dexamethasone as low as 10(-9) M. When dexamethasone was added to the cells at the same time as PHA, the inhibitory effect could be detected as early as 3 hr. Dexamethasone at 10(-6) M also profoundly inhibited the IL-5 response to PMA and to IL-2, but the IL-5 response to Ionomycin was not significantly affected. These results suggest that dexamethasone may be capable of interfering with a pathway involving protein kinase C. There is increasing evidence that IL-5 may play a pathogenic role in asthma and other manifestations of acute hypersensitivity. The present findings indicate that inhibition of IL-5 expression may be one of the mechanisms whereby glucocorticoids exert their beneficial effects in diseases such as asthma.
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PMID:Inhibition of interleukin-5 gene expression by dexamethasone. 149 21

This review outlines evidence that IL-1, IL-2, and TNFs modulate neutrophil functions. These cytokines affect some or all of the following functions of the neutrophil: adherence, cell migration, respiratory burst, lysosomal enzyme release, and cell surface receptor expression. TNFs, especially TNF alpha, remains one of the most highly studied cytokine with respect to regulation of neutrophil function. TNFs are a direct stimuli for the neutrophil respiratory burst and weak stimuli of lysosomal enzyme release. The cytokines enhance cell adhesion and inhibit neutrophil migration. The TNFs augment the oxidative burst and lysosomal enzyme release response to a wide range of soluble and particulate cell stimuli. These changes in the cell seem to be closely correlated with the increased fungicidal, bactericidal, tumoricidal, and protozoacidal activity of the TNF-primed neutrophils. In contrast to TNFs, IL-1 and IL-2 inhibit neutrophil adherence, and this provides evidence that the cytokine family represents a regulatory system. Another form of regulation of TNF alpha and IL-1 neutrophil-activating activity is by the release of inhibitors to these cytokines (58). We have evidence which shows that the soluble TNF alpha inhibitor (a cleaved product of the TNF alpha receptor) (59) binds and inhibits TNF from activating and priming neutrophils (60). Priming of neutrophils by TNFs involves surface receptor binding but is independent of protein kinase C system, pertussis toxin-sensitive guanine nucleotide regulatory protein, and direct burst of respiratory activity. The translocation of cell surface receptors and constituents of the NADPH oxidase from stored vesicles may be the major mechanism of TNF-induced cell priming.
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PMID:Activation of neutrophils by interleukins-1 and -2 and tumor necrosis factors. 150 43

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

Adoptive immunotherapy in humans may be limited by the lack of autologous tumor cells to activate and expand tumor-specific T cells. Pharmacologic manipulation of protein kinase C (PKC) and intracellular calcium may substitute for tumor antigen and stimulate T cells for adoptive immunotherapy. In the present study, we evaluated the ability of the PKC activator Bryostatin 1 (B) plus the calcium ionophore ionomycin (I) to activate lymphocytes obtained from popliteal lymph nodes (DLN) draining an MCA-105 footpad tumor. The adoptive transfer of B/I-stimulated DLN cells eradicated MCA-105 pulmonary metastases. These lymphocytes do not require concomitant IL-2 administration to mediate regression of lung metastases. Three days after intrasplenic injection of tumor cells and splenectomy, mice were given iv injections of B/I-stimulated DLN cells. Adoptive immunotherapy with these cells induced regression of established liver metastases. In an intradermal tumor model, the adoptive transfer of B/I-stimulated MCA-105 DLN cells cured mice of MCA-105 intradermal (id) tumors, but did not induce regression of MCA-206 tumors. Mice cured of MCA-105 id tumors were protected against MCA-105, but not MCA-203, tumor challenge in the footpad 7 weeks after adoptive immunotherapy.
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PMID:Bryostatin 1-activated T cells can traffic and mediate tumor regression. 152 28

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

alpha CD3 induced the generation of activated killer cells from resting T cells. Pretreatment of the splenic responders with PMA, a phorbol ester, depleted protein kinase C and induced unresponsiveness to the generation of alpha CD3-induced activated killer (CD3-AK) cells. Addition of exogenous IL-4 (1 U/ml) restored the cytotoxic response, with the maximal effect achieved with 30 to 100 U/ml. The phenotypes of CD3-AK cells maintained in IL-2 or in IL-4, with or without PMA, were the same: Thy1+ and CD8+. These results were reproduced with purified T cells and purified CD8+ cells, indicating that both the effectors and precursors were CD8+ cells and IL-4 had a selective effect to upregulate the CD8+ cells. Similar results were obtained by using SSP (staurosporine), another PKC inhibitor. At 2 days prior to testing, switching the lymphokine added to 2-week PMA- and IL-2-maintained CD3-AK cells reversed their cytolytic activity: switching from IL-2 to IL-4 restored cytolytic activity, and switching from IL-4 to IL-2 reduced cytolytic activity. The cytolytic activity of these CD3-AK cells correlated with their ability to produce BLT-esterase. In the absence of PMA, CD3-AK cells cultured in either IL-2 or IL-4 were cytolytic and contained high levels of BLT-esterase. In contrast, in the presence of PMA, only the IL-4-maintained CD3-AK cells were cytolytic and produced significant amounts of BLT-esterase. The effect of IL-4 was abrogated by the alpha IL-4 antibody 11B11, which reduced the cytolytic activity of CD3-AK and the ability to produce BLT-esterase. The requirement of IL-2 was less stringent and its major role appeared to be maintaining the cell growth. These findings indicate that IL-4 may participate in the regulation of a PKC-independent pathway for the generation of CD3-AK cells by regulating the production of cytolytic granules.
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PMID:IL-4 regulation of a protein kinase C independent pathway for the generation of alpha CD3-induced activated killer cells. 153 52

The interleukin-1 receptor type I (IL-1RtI) plays an important role in the biological effects of IL-1, but regulation of its surface and gene expression remains unknown. We found that occupancy of 2-15% of the IL-1 surface receptor results in dramatic down-regulation of IL-1RtI both at the mRNA and cell surface level in murine D10S cells, a subline of T-helper type 2 cells. At these low occupancy levels (3 x 10(-12) to 3 x 10(-13) M), the reduction in IL-1RtI surface expression appears at 24 hr and continues to 48 and 72 hr. At the mRNA level, low occupancy of the IL-1R results in decreased IL-1RtI mRNA stability; steady state half-life of the IL-1RtI mRNA is reduced from 6 to 1 hr after exposure to 3 x 10(-12) M IL-1. This down-regulation of IL-1RtI by IL-1 is blocked by cycloheximide, suggesting de novo protein synthesis is necessary for decreased RNA stability. Low concentrations of human IL-1 beta, murine and rabbit IL-1 alpha or beta similarly down-regulated IL-1RtI, whereas low concentrations of human IL-1 alpha failed to reduce the receptor surface expression, despite inducing a full proliferative response. We also observed that the effect of IL-1 on this down-regulation was not through protein kinase C (PKC), since PMA rapidly increased IL-1RtI mRNA levels within 30 min and persisted for 24 hr. IL-2 up-regulated IL-1RtI in D10S cells at both mRNA and protein levels. These results demonstrate that low occupancy of IL-1 receptors induces down-regulation of IL-1RtI surface as well as mRNA expression. The regulation of IL-1RtI gene expression may be one of the mechanisms by which IL-1-mediated events are controlled.
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PMID:Interleukin-1 down-regulates gene and surface expression of interleukin-1 receptor type I by destabilizing its mRNA whereas interleukin-2 increases its expression. 153 88

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

It is well established that T cell maturation and activation are negatively regulated by a mechanism termed apoptosis. We now present evidence that glucocorticoids, known to possess immunosuppressive properties, cause apoptosis in mature Th cells, similarly to what has been reported for thymocytes. Th cells treated with the synthetic glucocorticoid dexamethasone show genome fragmentation into oligonucleosomal fragments, and proliferation of growth factor stimulated Th cells is inhibited by glucocorticoids. We show that IL-4 specifically rescues Th2 cells from dexamethasone-mediated apoptosis, whereas IL-2 and IL-1 are ineffective in these cells. However, IL-2 is the relevant rescue-factor of glucocorticoid-treated Th1 cells. The rescue induced by IL-4 and IL-2 is thought to be mediated by protein kinases (possibly protein kinase C), as evidenced by the fact that the protein kinase inhibitor H7 blocks the action of IL-4 and IL-2 in glucocorticoid-treated cells. Our in vitro data show that mature T cells can be protected by their own growth factors from the deleterious effects of the synthetic glucocorticoid dexamethasone, and suggest that specific interactions occur between lymphokines and naturally produced glucocorticoids in vivo, which may play a role in the regulation of the immune response.
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PMID:IL-4 and IL-2 selectively rescue Th cell subsets from glucocorticoid-induced apoptosis. 153 84

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