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)

Directed migration of lymphocytes from blood into lymph nodes and gut-associated lymphatic tissue, also referred to as homing, is subject to change following activation. Lymphocyte migration into lymphoid organs in vivo and binding to high endothelial venules in vitro is largely suppressed after short-term stimulation with phorbol esters. The observed functional alterations were correlated with changes in the expression of three putative homing receptors, LECAM-1 (MEL-14 antigen), LPAM-1/2 (alpha 4-integrin) and the murine CD44 (Pgp-1, H-CAM, Hermes-antigen equivalent) upon different modes of cellular activation. Expression of LECAM-1 (gp90 MEL-14), a lymphocyte adhesion molecule implicated in targeting extravasation into lymph nodes, was found to be lost almost completely within minutes after protein kinase C activation. LECAM-1 re-expression occurred within less than 24 h. Rapid loss of LECAM-1 was also observed after calcium ionophores whereas anti-CD3 or concanavalin A elicited a gradual and heterogeneous loss of LECAM-1 becoming detectable after several hours only. A number of cytokines tested were not able to induce alterations in LECAM-1 expression. In contrast, expression of LPAM-1/2 (alpha 4-integrin) and CD44 (Pgp-1, H-CAM), two adhesion molecules supposed to direct extravasation into Peyer's patches, remained stable for hours after every stimulus tested; CD44 expression gradually increased 24 h after mitogenic activation, whereas a small reduction only was observed for the expression of the alpha 4-chain under certain conditions. Thus, reduced extravasation of lymphocytes into Peyer's patches after activation is not due to a decline in the surface density of LPAM-1/2 alpha-chain or CD44 whereas alterations in migration into lymph nodes parallel the expression of LECAM-1.
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PMID:Lymphocyte activation and regulation of three adhesion molecules with supposed function in homing: LECAM-1 (MEL-14 antigen), LPAM-1/2 (alpha 4-integrin) and CD44 (Pgp-1). 137 Aug 69

Anti-lymphocyte and anti-thymocyte globulins (ATG) are currently used as immunosuppressive agents in organ transplantation. Their administration in vivo may induce not only lymphocyte depletion but also functional effects which were investigated in the present study. In vitro ATG inhibited T-cell proliferation induced by monocyte-dependent T-cell mitogens, like CD3 antibodies, phytohaemagglutinin (PHA) and concanavalin A (Con A), by monocyte-independent mitogens, like CD2 antibodies, or by protein kinase C activators (phorbol esters) associated with a calcium ionophore. The inhibitory effect of ATG was therefore not solely accounted for by a suppression of co-stimulatory signals delivered by monocytes, but rather implied a direct action on T cells. Addition of recombinant human interleukin-2 (rIL-2) did not overcome the inhibition. Suppression of T-cell proliferation by ATG was characterized by normal RNA synthesis and IL-2 secretion contrasting with markedly reduced expression of the CD25 protein [p55, the alpha-chain of interleukin-2 receptor (IL-2R)] both in cytoplasm and on T-cell membrane, as well as a decreased secretion of interferon-gamma (IFN-gamma). Northern blot analysis revealed increased levels of CD25 and IFN-gamma mRNA, suggesting a post-transcriptional inhibition of these molecules, whereas IL-2 mRNA levels were unchanged. These data demonstrate that inhibition of T-cell proliferation by ATG can be attributed primarily to a post-transcriptional defect of CD25 expression, implying a novel mechanism different from those described with other immunosuppressive agents. Blocking of T-cell proliferation in the late G1 phase of the cell cycle may contribute to the immunosuppressive activity of ATG in prophylactic treatment of allograft rejection.
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PMID:Inhibition of CD25 (IL-2R alpha) expression and T-cell proliferation by polyclonal anti-thymocyte globulins. 139 65

The receptor for tumor-promoting phorbol esters has been shown to be the Ca+2/phospholipid dependent enzyme protein kinase C (PKC). There are two major groups of PKC, the conventional PKC isotypes alpha, beta I, beta II, gamma) and the novel Ca+2-independent PKC (delta, epsilon, zeta, eta). Phorbol esters previously have been demonstrated to increase human IFN-gamma gene expression after treatment of a murine T cell line (Cl 9) that has been transfected with human IFN-gamma genomic DNA. In contrast, treatment with Ca+2 ionophore alone or in combination with phorbol ester did not enhance IFN-gamma production in a synergistic manner above the level obtained with phorbol ester treatment alone. To determine whether the lack of effect of Ca+2 ionophore is due to a defect in PKC, we compared the level of PKC autophosphorylation in the mouse T cell line (Cl 9), a mouse epidermal cell line (JB6), and purified rat brain PKC by in vitro kinase assays. The results demonstrate that instead of the expected 80-kDa autophosphorylated PKC band seen in purified rat brain PKC or mouse JB6 cell lysates, only a novel 97-kDa Ca+2-independent phosphoprotein was observed in Cl 9 cells. To ascertain if there was any nucleic acid sequence similarity to PKC epsilon, we hybridized Cl 9 poly(A+) RNA with a cloned fragment of the PKC epsilon gene and observed two hybridizing RNA bands (4.4 and 4.0 kb). Our results suggest that the 97-kDa phosphoprotein is similar to, but not identical with, PKC epsilon and is the major PKC expressed in the Cl 9 murine T cell line. These data suggested that the 97-kDa PKC may be responsible for the induction of both the transfected human IFN-gamma gene and the endogenous murine IL-2R alpha-chain.
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PMID:The presence in a mouse T cell line of a 97-kDa protein kinase C (PKC) with characteristics similar to known members of the novel PKC subgroup and its possible role in lymphocyte gene expression. 143 Nov 24

To understand mechanisms of signal transduction involved in the regulation of isotype differentiation of B lymphocytes, we investigated effects of activation of protein kinase C (PKC) by phorbol esters and elevation of intracellular free calcium (Ca2+) by the calcium ionophore ionomycin (Ion) on Ig secretion by mouse Peyer's patch (PP) and spleen B cells. Results show that Ion suppressed production of IgM, IgG, and IgA by LPS-stimulated B cells whereas PKC-activating phorbol esters also inhibited LPS-induced IgM and IgG secretion, but induced a substantial IgA synthesis, as well as alpha-chain mRNA transcription, in B cells whether stimulated or not by LPS. Phorbol esters enhanced IgA response by directly activating PKC, inasmuch as the other phorbol ester, 4 alpha-phorbol 12,13-didecanoate, which is inactive with respect to PKC, had no effect on B cell differentiation. The increase in IgA secretion occurred in whole PP B cells, but not in the membrane IgA- B cell subset, suggesting that PKC activation does not promote the switching rate of IgM+ cells to IgA+ cells. Results from double staining studies of mIgA using FITC-labeled anti-IgA antibodies and DNA content using the DNA-binding propidium iodide showed that enhanced IgA response was not caused by IgA B cell clonal expansion. PMA induced low level of IL-6 production by highly purified PP B cells. However, addition of anti-mouse IL-6 antibody did not prevent PMA-enhanced IgA secretion, suggesting that IL-6 was not responsible for IgA induction by PMA. Collectively, the present data demonstrate that PKC activation and Ca2+ mobilization, which synergistically trigger cell proliferation, have differential effects on B cell isotype differentiation. Elevation of intracellular Ca2+ suppresses Ig production, but activation of PKC selectively enhances IgA secretion by directly promoting terminal differentiation of IgA-committed PP B cells into IgA-secreting plasma cells.
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PMID:Selective induction of high levels of IgA synthesis in Peyer's patch B cells by protein kinase C-activating phorbol esters. 190 30

Complement factor C3, recently found to contain covalently bound phosphate, was phosphorylated in vitro by cyclic AMP-dependent protein kinase (protein kinase A) and Ca2(+)-activated, phospholipid-dependent protein kinase (protein kinase C). Both protein kinases phosphorylated the same serine residue(s) located in the C3a portion of the alpha-chain. In addition, protein kinase C phosphorylated the beta-chain to a lesser extent. Protein kinase A gave a maximal incorporation of 1 mol of phosphate/mol of C3 while that value with protein kinase C was 1.5 mol of phosphate/mol of C3. The velocity in pmol of [32P]phosphate/(min x unit kinase) was 20 times higher for protein kinase C than for protein kinase A although a 10 times lower ratio of protein kinase to C3 was used in the former case. The apparent Km for C3 was 2.6 microM when protein kinase C was used. The phosphorylated C3 was found to be more resistant to partial degradation by trypsin than unphosphorylated C3. It was also found that phosphorylation of C3 in the C3a portion of the alpha-chain inhibited both the classical and alternative complement activation pathways on an approximately stoichiometric basis.
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PMID:In vitro phosphorylation of human complement factor C3 by protein kinase A and protein kinase C. Effects on the classical and alternative pathways. 230 32

The state of T cell activation and proliferation controls HIV-1 replication and gene expression. Previously, we demonstrated that the administration of PHA and PMA to the human T cell line Jurkat activates the HIV-1 enhancer, which is composed of two nuclear factor kappa B (NF kappa B) binding sites. Here, we show that PMA alone is sufficient for this effect. In addition, activation of T cells through the surface proteins TCR/CD3 and CD28 increased gene expression directed by the HIV-1 long terminal repeat (LTR) to the same extent as PMA. Analysis of 5' deletions in the LTR revealed that the NF kappa B binding sites and sequences in the upstream U3 region are required for this response. Whereas cyclosporin A did not inhibit the effect of PMA, it reduced the effects of agonists to TCR/CD3 and CD28 on the LTR. H7, an inhibitor of protein kinase C (PKC), blocked the effects of all stimuli. Thus, PMA activates the NF kappa B sites through a PKC-dependent pathway while ligands to TCR/CD3 and CD28 activate the LTR through a cyclosporin A-sensitive, PKC-dependent pathway of T cell activation. We conclude that mechanisms involved in the expression of IL-2 and the alpha-chain of the IL-2R alpha genes also play a role in the regulation of HIV-1. Physiologic stimuli can activate HIV-1 gene expression; agents that block T cell activation also inhibit activation of the LTR. These observations might serve as a model for the regulation of HIV-1 gene expression in peripheral blood T cells.
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PMID:Signaling through T lymphocyte surface proteins, TCR/CD3 and CD28, activates the HIV-1 long terminal repeat. 253 62

Phosphorylation of human fibrinogen in vitro by incubation with [gamma-32P]ATP and protein kinase C purified from pig spleen, led to incorporation of [32P]phosphate at serine residues located in the A alpha-chain. In order to identify the residues that were phosphorylated, the A alpha-chain of fibrinogen was isolated and subjected to consecutive cleavage by cyanogen bromide, trypsin, and chymotrypsin. The resulting radioactive phosphopeptides were purified by gel chromatography and high-performance liquid chromatography using a reversed-phase column. Subsequent amino acid analysis and manual Edman degradation of the purified phosphopeptides revealed that Ser557, Ser558, Ser559, and Ser599 were phosphorylated. These serine residues are located in the carboxy-terminal part of the A alpha-chain. This region also contains lysine residues participating in the cross-linking of fibrin and, possibly, a site involved in the binding of fibrinogen to receptors on platelets. In addition, peptides derived from the middle section of the polypeptide chain were found to contain [32P]phosphate; in these cases, however, the exact localization of the phosphate could not be determined, due to the low yield of radioactivity. Two glutamine residues, Gln328 and Gln366, in this portion of the A alpha-chain take part in the cross-linking of fibrin.
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PMID:Phosphorylation of human fibrinogen in vitro with protein kinase C: characterization of the phosphorylated sites. 310 98

We previously found that IL-2 rapidly induced protein phosphorylation of a 67-kDa (pp67) and four 63-kDa (pp63s) cellular proteins in various T cells. Here, we show that the IL-2-stimulated phosphorylation is mediated by the IL-2R beta-chain composed of the high affinity IL-2R, and induced by activation of Ca2+/phospholipid-dependent protein kinase C (PKC). The IL-2-stimulated phosphorylation was always observed in various T cell lines bearing high affinity IL-2R, but never observed in cells which express only low affinity IL-2R consisted of alpha-chain alone. When the expression of high affinity IL-2R was modified by anti-IL-2R mAb for reducing the affinity to 8- to 10-fold lower without affecting the sites of IL-2R, the effective dose of IL-2 on phosphorylation of pp67 increased 8 to 10 times. When cells were treated with pronase, approximately 95% sites of low affinity IL-2R were selectively decreased, but the IL-2 dose dependency for pp67 phosphorylation was little affected. These data exactly suggest that protein phosphorylation in response to IL-2 such as pp67 and pp63s, is mediated by high affinity but not low affinity IL-2R. Furthermore, the IL-2-stimulated phosphorylation of these proteins was also observed in MLA 144 cells which express only low affinity IL-2R consisting of beta-chain alone. In addition, various phorbol esters and tumor promoters, which activate PKC, were also demonstrated to induce the phosphorylation of a pp67 and pp63s in these T cell lines. Therefore, the present study suggests that IL-2/IL-2R beta-chain interaction triggers the phosphorylation of pp67 and pp63s, where the PKC may have an important role.
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PMID:Protein phosphorylation mediated by IL-2/IL-2 receptor beta-chain interaction. 313 2

Activation of the enzyme protein kinase C (PKC) plays an important role in T cell activation. We investigated the phosphorylation of CD2, CD3, CD4, CD5, CD7, CD8, CD28 (Tp44), CD43 (sialophorin, gp115), and LFA-1 after incubation of human PBMC with the (PKC) activator PMA. These proteins were chosen for their role in transmembrane signal transduction (CD2, CD3, CD5, CD28, CD43), cell-cell interaction and adhesion (CD2, CD4, CD8, and LFA-1), or involvement in immunodeficiency states (CD43, CD7). CD5, CD7, CD43, and the alpha-chain of LFA-1 were found to be constitutively phosphorylated. PMA induced rapid hyperphosphorylation of CD5, CD7, and CD43, but not of the LFA-1 alpha-chain, and induced the phosphorylation of CD3, CD4, CD8 and of the LFA-1 beta-chain. PMA did not cause the phosphorylation of CD2 and CD28. PMA-induced phosphorylation was partially inhibited by the PKC inhibitor 1-(5-isoquinolinylsulfonyl)-2-methylpiperazine dihydrochloride. Finally, the T cell activator Con A, which binds to the CD3/TCR complex was shown to induce a profile of protein phosphorylation similar to that observed with PMA. We conclude that PKC-mediated phosphorylation of T cell Ag may represent an important regulatory mechanism that governs the process of T cell activation.
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PMID:Phosphorylation of T cell membrane proteins by activators of protein kinase C. 325 10

Thrombin-induced gel formation of fibrinogen phosphorylated by protein kinase C yielded a transparent gel, whereas unphosphorylated fibrinogen yielded a coarse gel. The mass-length ratio was found to be one order of magnitude higher for the unphosphorylated than for the phosphorylated fibrinogen. Since the phosphorylated sites are located near the cross-linking sites in the A alpha-chain of fibrinogen, it is likely that the introduction of charged phosphate groups in this region prevent the lateral growth of the fibrin fibres.
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PMID:Effect of phosphorylation in vitro of human fibrinogen with protein kinase C on thrombin-induced gelation. 366 Mar 46


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