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)

Interleukin-2 (IL-2) gene regulation was investigated in primary cultures of highly purified human peripheral blood CD28+ T cells. Two discrete mechanisms for induction of T-cell proliferation could be distinguished by examining cell cycle progression and the expression of the IL-2 gene. Stimulation of cells by CD3 MoAb induced only transiently expressed, small amounts of IL-2 mRNA that was completely suppressed by cyclosporine. Costimulation of T cells with CD3 MoAb and either CD28 MoAb or PMA, but not calcium ionophore, induced a 50-100-fold increased in IL-2 gene expression and secretion. High levels of IL-2 gene expression could also be achieved by stimulation with calcium ionophore and PMA or CD28 MoAb and PMA, but not by CD28 MoAb plus calcium ionophore. IL-2 gene expression and T-cell proliferation induced by CD3 MoAb plus PMA or calcium ionophore plus PMA were completely suppressible by cyclosporine. In contrast, IL-2 gene expression and T-cell proliferation induced by CD28 MoAb plus PMA were unaffected by cyclosporine. The CD28 signal was dependent on new protein synthesis. Nuclear run-on transcription assays showed that anti-CD28 did not affect lymphokine transcription. A major effect of CD28 stimulation on mRNA stability was shown by studies using actinomycin D; CD28 stimulation substantially increased the half-life of IL-2 and TNF-alpha mRNA. The effects of anti-CD28 stimulation were specific for growth factors, and thus differ from previously described effects of cycloheximide on mRNA stability. These studies suggest the existence of two biochemical pathways for the induction of IL-2 production, one that occurs at the transcriptional level and is mediated by intracellular calcium release and protein kinase C and is cyclosporine-sensitive, and one that acts post-transcriptionally, is mediated by CD28 stimulation, and is cyclosporine-resistant.
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PMID:Two distinct mechanisms of interleukin-2 gene expression in human T lymphocytes. 255 20

This study was designed to determine the effect of the phenothiazine chlorpromazine (CPZ) on the activation of human thymocytes. We provide evidence that CPZ inhibits the accumulation of mRNA specific for the lymphokines, interleukin 2, interferon-gamma, tumor necrosis factor alpha and the proto-oncogene c-myc; by contrast, the accumulation of mRNA specific for the alpha chain of the interleukin 2 receptor and the subsequent early expression of Tac antigen on the cell surface is not inhibited by CPZ. The inhibition of the expression of lymphokine-specific mRNA results in a decrease in interferon-gamma synthesis and in inhibition of thymocyte proliferation as determined by the incorporation of [3H]thymidine. In addition, we show that activation of protein kinase C (PKC) in human thymocytes by 12-O-tetradecanoyl phorbol 13-acetate (TPA) causes the phosphorylation of a protein of a molecular mass of approximately 75 kDa. The function of this protein is as yet not defined, but it is possible that it plays a role in the transduction of the signals to the nucleus which in turn elicit the expression of the genes coding for c-myc and for the lymphokines required for thymocyte activation. We also demonstrate that CPZ, like the immunosuppressant drug cyclosporin A does not inhibit the phosphorylation of the 75-kDa protein which is induced by the activation of PKC by TPA and does not affect phosphoinositide breakdown, indicating that it exerts its effect at a site distal to the activation of PKC. These observations demonstrate that CPZ has an immunoregulatory function in addition to its psychotropic activity.
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PMID:Inhibition by chlorpromazine of lymphokine-specific mRNA expression in human thymocytes. 255 Feb 48

The ability of small molecules such as urushiol, present as a wax on the poison ivy leaf surface, to cause allergic contact dermatitis (rhus dermatitis) has fascinated immunologists for decades. Current dogma suggests that these epicutaneously applied catechol-containing molecules serve as haptens to conjugate with larger proteins via reactive o-quinone intermediates. These complexes are then recognized as foreign antigens by the immune system and elicit a hypersensitivity reaction. Phorbol ester can directly induce cultured keratinocyte (KC) intercellular adhesion molecule-1 (ICAM-1) expression via a protein kinase C (PK-C)-dependent mechanism. As urushiol is also a known PK-C agonist, we asked if topical application of a poison ivy/oak mixture could directly induce epidermal KC ICAM-1 expression. During the pre-erythematous phase of this reaction (4 to 20 hours), epidermal KCs expressed ICAM-1; this "initiation phase" preceded the appearance of activated memory T lymphocytes in the papillary dermis, and thus appeared to be nonlymphokine mediated. A near-contiguous cellular-adhesion molecular network was identified by ICAM-1 staining of basal KCs, dermal dendrocytes, and endothelial cells. During the second 24-hour period with the onset of erythema and edema, there was an "amplification phase" of more intense KC ICAM-1 expression coupled with relatively weak KC HLA-DR expression that coincided with dermal and epidermal T-cell infiltration. This suggests the presence of lymphokines, such as gamma interferon, during the amplification phase because of KC HLA-DR expression. On cultured KCs, urushiol directly induced ICAM-1 expression but not HLA-DR. Thus, in addition to functioning as an antigenic hapten, urushiol directly induces KC ICAM-1 expression. The KC ICAM-1 expression may then alter the dynamic trafficking of memory T cells in the epidermis, so as to initiate cutaneous inflammation in a nonantigen specific manner. This initiation phase is followed by T-cell infiltration and consequent lymphokine production that significantly amplifies the original stimulus. Thus much can still be learned about the molecular pathophysiology of this common type of cutaneous inflammation.
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PMID:Keratinocyte intercellular adhesion molecule-1 (ICAM-1) expression precedes dermal T lymphocytic infiltration in allergic contact dermatitis (Rhus dermatitis). 257 36

1,25-Dihydroxyvitamin-D3 (1,25-D3) is known to inhibit DNA synthesis, immunoglobulin and lymphokine production [interleukin-2 (IL-2), gamma interferon (G-IFN), and granulocyte-monocyte colony-stimulating factor (GM-CSF)] by mitogen-stimulated human peripheral blood mononuclear cells (PBMCs). Recent data suggest these inhibitory effects are mediated at the gene level through inhibition of mRNA accumulation of specific lymphokines in the activated cells. In previous studies, we have demonstrated the CD8+ T cell population was less sensitive to the anti-proliferative actions of 1,25-D3 than CD4+ T cells. The purpose of this investigation was to further assess ability of 1,25-D3 to regulate CD4+ and CD8+ T cell functions. Initial experiments showed that 1,25-D3 inhibited both IL-2 production and mRNA accumulation in mitogen-stimulated PBMC. However, IL-2 receptor (IL-2R) expression and mRNA accumulation in stimulated PBMC was not affected by 1,25-D3. Both FACS sorted CD4+ and CD8+ T cells expressed IL-2R equally upon stimulation and neither showed an inhibitory effect on this expression by 1,25-D3. Human CD4+ and CD8+ T cells showed a stimulus-specific production of IL-2. CD4+ cells stimulated with mitogen and HLA-DR positive accessory cells produced measurable levels of IL-2 that were completely inhibited by 1,25-D3. CD8+ T cells did not generate measurable amounts of IL-2 in this system. However, CD4+ and CD8+ T cells produced large amounts of IL-2 when stimulated with mitogen and a protein kinase C activator, phorbol myristate acetate (PMA). Under these circumstances, both CD4+ and CD8+ T cell IL-2 production was inhibited completely by 1,25-D3. These data suggest that IL-2R expression in PBMCs and T cell subsets is equal and unaffected by 1,25-D3 while IL-2 production in T cell subsets is stimulus-specific and completely inhibited by 1,25-D3.
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PMID:1,25-Dihydroxyvitamin-D3 regulation of interleukin-2 and interleukin-2 receptor levels and gene expression in human T cells. 259 16

Interleukin-3 (IL-3) is a lymphokine which stimulates the proliferation of normal and transformed multilineage hematopoietic cells. Recently we reported that bryostatin 1, a macrocyclic lactone and potent activator of protein kinase C, could stimulate normal multipotential hematopoietic progenitor cells in vitro in the absence of added polypeptide growth factors. We have now used the murine IL-3-dependent cell line FDC-P1, derived from normal murine marrow cells, to examine the early biochemical events associated with stimulation of hematopoietic cells. We find that both IL-3 and bryostatin 1 are mitogenic and stimulate the growth of FDC-P1 cells. Cells grown for extended periods in the presence of bryostatin 1 (1 nM) alone retain IL-3 responsiveness, indicating that bryostatin 1 does not induce an IL-3-independent state. Protein phosphorylation studies in cells treated with either IL-3 or bryostatin 1 indicate that both stimulators can mediate the rapid (within 5 min) serine-specific phosphorylation of several nuclear envelope polypeptides, including lamin B. Both IL-3- and bryostatin 1-mediated nuclear envelope phosphorylation is dose-dependent, occurring at concentrations which are mitogenic to FDC-P1 cells. The extent of nuclear envelope phosphorylation mediated by IL-3 and bryostatin 1 correlates with the mitogenic response. Furthermore, both mitogens mediate the rapid immunologic translocation of protein kinase C to the nuclear envelope where phosphorylation occurs. These data indicate that the early mitogenic signal(s) generated by IL-3 and bryostatin 1 may converge at the level of the nuclear envelope, perhaps through a protein kinase C-like activity which mediates phosphorylation of specific nuclear envelope polypeptides such as lamin B.
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PMID:Interleukin-3 and bryostatin 1 mediate rapid nuclear envelope protein phosphorylation in growth factor-dependent FDC-P1 hematopoietic cells. A possible role for nuclear protein kinase C. 260 93

As previously reported, the culture of mouse spleen cells in the presence of high amounts of human rIL-2 for 4 days caused proliferation and generation of lymphokine-activated killer (LAK) cells, which could lyse a variety of tumor cells. However, an addition of PMA to the culture resulted in a striking inhibition of the generation of LAK cells. In contrast, IL-2-induced cell proliferation, IL-2R expression, and LFA-1 expression were enhanced by the addition of PMA. Kinetic studies revealed that the addition of PMA during the final 24 h, but not 4 h, of the culture was sufficient to inhibit the generation of LAK cells. The same inhibition of LAK activity was observed when 4-day cultured LAK cells were pretreated with PMA for over 12 h before cytotoxicity assay. Flow cytometry analysis showed that PMA pretreatment had no effect on the binding of LAK cells to target cells. PMA pretreatment of LAK cells caused total disappearance of protein kinase C (PKC) activity from LAK cells concomitant with the loss of LAK activity. However, PMA-pretreated LAK cells cultured for another 24 h in the absence of PMA revealed levels of PKC activity and cytotoxicity identical with untreated LAK cells. These results strongly suggest that PMA-induced down-regulation of LAK cell-mediated cytotoxicity is due to the inactivation of PKC-dependent transduction systems that are essential post LAK cell-target cell binding.
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PMID:Inhibition of lymphokine-activated killer cell-mediated cytotoxicity by phorbol ester. 264 77

Human interleukin-2 (IL-2) is a lymphokine which is capable of activating lymphocytes and supporting the long-term in vitro growth of activated T cell clones. Recombinant human IL-2, expressed in either E. coli or cos cells, was shown to be phosphorylated by protein kinase C. Phosphorylated IL-2 synthesized in E. coli was analyzed by SDS-PAGE, reverse phase HPLC, and tryptic peptide mapping. The phosphorylated tryptic peptide was identified as the N-terminal fragment containing a single phosphorylation site at the serine residue at position 7. There was no difference in biological activity between non-phosphorylated and phosphorylated IL-2, as determined by a T cell growth assay. Although the physiological role of phosphorylation of IL-2 is unclear, IL-2 can be labeled with [gamma-32P] ATP and protein kinase C to a high specific radioactivity, and the synthesis of biologically active 32p-labeled IL-2 may be useful for receptor-binding studies of the cells containing low level of phosphoprotein phosphotases.
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PMID:Phosphorylation of human interleukin-2 (IL-2). 278 33

The binding of interleukin 2 (IL 2) to specific cell surface receptors provides a unique proliferative stimulus to sensitive T-lymphocytes. The purpose of this investigation was to examine the hypothesis that IL 2 stimulus-response coupling in the IL 2-dependent murine T-lymphocyte clone CTLL-2 employed some of the intracellular second messengers used by other growth factors. No evidence was obtained to implicate changes in intracellular Ca2+ concentrations, protein kinase C activation, or stimulation of the Na+/H+ antiporter or the Na+/K+ ATPase as requirements for stimulation by recombinant human IL 2. Pertussis toxin did not inhibit IL 2-driven growth of CTLL-2, and while cholera toxin did inhibit growth, its effect was optimal 6 to 8 hr after addition of IL 2 and could be mimicked by increased intracellular cyclic-AMP. Thus, guanine nucleotide-binding regulatory proteins do not appear to be involved in stimulation by this lymphokine. Together, these data suggest that IL 2 may not use any of the same types of intracellular second messengers generated subsequent to the binding of antigen or mitogen by T-lymphocytes.
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PMID:Does interleukin 2 stimulus-response coupling result in generation of intracellular second messengers? 284 44

The mouse cytotoxic T cell clone (CTLL-2) was able to grow in the presence of culture medium supplemented only with transferrin, 2-mercaptoethanol, and recombinant interleukin 2 (IL-2). This lymphokine stimulated the synthesis of DNA in these cells. Similarly, phorbol esters, which activate protein kinase C, induced DNA synthesis in this clone. Furthermore, this later proliferation was not blocked by anti-IL-2 receptor antibodies, which inhibited IL-2-induced proliferation, suggesting that it was not indirectly due to the secretion of IL-2 by the cells. CTLL-2 cells pretreated with high doses of phorbol esters for 48 h down regulated protein kinase C and were depleted of this enzyme. This was shown by: 1) purification and in vitro assay of protein kinase C; 2) the lack of effect of phorbol esters in the stimulation of the Na+/H+ anti-porter which has been directly linked to the activation of protein kinase C. As expected, those protein kinase C-depleted cells no longer synthesized DNA and proliferated in response to phorbol esters. However, they proliferated identically to control cells in response to IL-2. Therefore, our results suggest two different pathways for T cell proliferation, one which involves protein kinase C and the other which does not.
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PMID:The role of protein kinase C in T lymphocyte proliferation. Existence of protein kinase C-dependent and -independent pathways. 284 66

Leukoregulin's effect on biochemical pathways involving Ca2+ was assessed in K562 erythroleukemia cells in which the antitumor lymphokine induces a rapidly reversible increase in plasma membrane permeability. Leukoregulin exposure activates protein kinase C but does not alter levels of phosphoinositol metabolites, calmodulin or cAMP. The activation pattern of protein kinase C differs from that induced by phorbol myristic acid (PMA), a potent activator of protein kinase C. PMA-induced translocation of protein kinase C from the cytosol to the plasma membrane is maximal by 2 min after addition of PMA whereas after leukoregulin treatment protein kinase C translocation reaches a maximum at 2 h. This suggests that leukoregulin activates protein kinase C via a non-classical phosphoinositol pathway as opposed to direct binding to protein kinase C as occurs with PMA. The temporal kinetics of the protein kinase C translocation and the increase in membrane permeability induced by leukoregulin are similar suggesting that phosphorylation of a membrane protein may be involved in the target cell destabilization of the plasma membrane by this lymphokine.
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PMID:Leukoregulin-induced translocation of protein kinase C activity in K562 cells. 285 Jan 24


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