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: UMLS:C0043167 (pertussis)
19,595 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

CD69 is a phosphorylated disulfide-linked homodimer that appears on the surface of human T, B cells and thymocytes in the early steps of activation; its molecular mass is 28 to 34 kDa under reducing conditions. This molecule is able to mediate positive signals to the lymphocytes as the anti-CD69 mAb (MLR3, AIM, Leu 23) in synergism with phorbol esters induce IL-2 production and proliferation of lymphocytes. Here we show that this molecule is associated to a GTP binding protein that is a substrate for Bordetella pertussis toxin. The relevance of CD69 in the activation process is also suggested by the broad range of signals able to modulate CD69 on T cells. In fact, not only the mitogens or the CD3-promoted activation, but also the alternative pathways mediated by CD2 or CD28 are accompanied by CD69 expression; moreover a very rapid and transient appearance of CD69 on the cell surface is observed also in response to a stimulus not specifically involved in T cell activation such as heat shock. Finally we demonstrate that CD69 is present in the cytoplasm of nonactivated T cells; accordingly its surface expression at the onset of activation is independent on a new RNA or protein synthesis.
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PMID:CD69 in resting and activated T lymphocytes. Its association with a GTP binding protein and biochemical requirements for its expression. 171 Feb 39

G proteins are membrane-bound molecules involved in coupling of surface receptors with signal transduction effector systems in multiple cell types including T lymphocytes. Given that mature T cells which lack antigen receptors (CDl-Ti) are refractory to stimulation through CD2 or other accessory molecules, T cell receptor components likely play a critical role in coupling surface receptors with signal transduction effectors. It has recently been proposed that modulation of T cell receptor components with MAbs results in a physical loss or functional inactivation of G protein(s). In view of the importance of the T cell activation process, we herein examined G proteins in untreated or antibody-modulated Jurkat T cells as well as in genetic variants lacking either CD3-Ti or CD2 surface receptors. 43- and 41-kDa G protein alpha chains are ADP ribosylated with cholera (CTX) and pertussis (PTX) toxins, respectively, in wild type and receptor minus cell populations. In the wild type Jurkat cell line as well as in CD3- and CD2- variants, AlF4- can activate the G protein(s) presumably associated with phospholipase C to generate polyphosphoinositide turnover as well as an increase in cytoplasmic free calcium ions. Furthermore, G protein(s) linked to adenylylcyclase, a pathway which inhibits T lymphocyte activation, can be directly activated with CTX in the absence of CD3-Ti or CD2 on the membrane. Importantly, AlF4- can also induce polyphosphoinositide turnover in Jurkat cells whose T cell receptor proteins have been modulated with anti-CD3 MAb. These data provide functional and biochemical evidence that at least certain G proteins are intact in the absence of surface expression of CD3-Ti or CD2 molecules and imply that CD3-Ti desensitization is not singularly due to G protein loss.
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PMID:Characterization of functional GTP binding proteins in Jurkat T cell mutants lacking either CD3-Ti or CD2 surface receptors. 197 60

The association of G-proteins with the T-cell-specific receptor structures CD3 and CD2 was investigated. High-affinity GTPase activity in membrane preparations of the human leukemic T-cell line Jurkat could be induced by the monoclonal antibodies OKT3 (anti-CD3) and OKT11 (anti-CD2). When combining maximally active concentrations of OKT3 and OKT11, no additive effect was seen on GTPase activity. In mutant Jurkat cells lacking the CD3 complex but with an intact CD2 receptor, neither OKT3 nor OKT11 could stimulate GTPase activity. Activation of CD3 and CD2 by monoclonal antibodies also stimulated phospholipase C activity as measured by breakdown of membrane phosphoinositides in wild-type but not in mutant Jurkat cells. Neither GTPase nor phospholipase C activation was sensitive to pretreatment with doses of pertussis toxin (PTX) that caused ADP ribosylation of a sensitive G-protein. Our data show that the CD3 complex and the CD2 receptor may activate a common PTX-insensitive G-protein. The CD2 receptor appears to stimulate the G-protein by interacting with the CD3 complex. The data are compatible with, but do not prove, that this G-protein is involved in the activation of phospholipase C by the two receptors.
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PMID:Stimulation of the T-cell receptors CD3 and CD2 with OKT3 and OKT11 antibodies activates a common pertussis toxin-insensitive G-protein. 198 60

Signaling via the alpha-beta T cell Ag receptor (Ti)-CD3 complex is a complicated event that implicates several protein kinases, most notably protein kinase C (PKC). We have recently identified a serine kinase in T lymphocytes with the following characteristics: molecular mass 43 kDa, in vitro substrate affinity for microtubule associated protein 2 (MAP-2) with a preference for Mn2+ during the catalytic reaction, and elution from DEAE resin over a salt range 100 to 200 mM NaCl. This kinase is activated in a rapidly reversible fashion during ligation of CD3/Ti by a process which involves prior phosphorylation; in vitro exposure of activated 43-kDa MAP-2 kinase (MAP-K) to an immobilized phosphatase abrogated its kinase activity. We now show that a MAP-2K response could also be obtained during treatment with mAb to Ti and the specific PKC agonist, PMA. Although the kinetics of the former response was rapidly reversible, PMA elicited a more prolonged response. The dose responsiveness for PMA was similar to the requirements for PKC activation in intact lymphocytes. Moreover, as with PKC, we found that the CD3-induced MAP-2K response could be further enhanced by using a second layer cross-linking antibody. The specificity of CD3/Ti in the Jurkat cell response is demonstrated by the fact that OKT-11(CD2) and anti-CD4 mAb did not stimulate a MAP-2K response. It was also not possible to elicit a response in a Jurkat cell mutant that lacks surface expression of CD3 and Ti. The specificity of PKC in these events was further explored with the cell permeant diacylglycerol, 1-oleoyl-2-acetylglycerol, and the nonagonist phorbol ester, 4 alpha-phorbol 12,13-didecanoate: whereas the former was an effective inducer of the MAP-2K response, the latter failed to yield any stimulation. Prior exposure of Jurkat cells to 100 mM PMA for 24 h eliminated greater than 60% of the MAP-2K response during anti-CD3 treatment. This response could also be inhibited in dose-dependent fashion by prior treatment of Jurkat cells with the potent PKC inhibitor 1-(5-isoquinolinesulfonyl) 2-methylpiperazine dihydrochloride. Although a Ca2(+)-ionophore failed to synergize with PMA at inducing a MAP-2K response, depletion of extracellular Ca2+ by EGTA abrogated anti-CD3 responsiveness. The events culminating in MAP-2K activation were slightly inhibited in the presence of cholera toxin but not pertussis toxin.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Stimulation of MAP-2 kinase activity in T lymphocytes by anti-CD3 or anti-Ti monoclonal antibody is partially dependent on protein kinase C. 215 31

Antibodies binding to a large subset of T-cell differentiation antigens, including CD2, CD4, CD5, CD6, CD7, CD8, Tp44, and CDw18, cause an increase in the cytoplasmic calcium concentration [( Ca2+]i) after the antigens are crosslinked on the cell surface. Similar crosslinking-induced signals were seen for a subset of mouse thymocyte differentiation antigens. The various antigens on human T cells differed in the extent of crosslinking required for generating the calcium signal, as evidenced by comparisons with monoclonal versus polyclonal second-step antibody. The [Ca2+]i increase that occurs after crosslinking represents mobilization of cytoplasmic calcium since the initial component of the signal is resistant to depletion of extracellular calcium by chelation with EGTA. The [Ca2+]i increase is completely inhibited by pretreatment of cells with pertussis toxin, indicating that a substrate for pertussis toxin regulates the signal transduction. Crosslinking of antigens other than the CD3/T-cell receptor complex did not result in T-cell proliferation. Crosslinking of CD2 and Tp44, but not other antigens, resulted in expression of functional interleukin 2 receptors. Comparisons of three different anti-CD3 antibodies showed that a second calcium signal was generated by crosslinking, even when the anti-CD3 antibodies were used at optimal concentrations.
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PMID:Crosslinking of surface antigens causes mobilization of intracellular ionized calcium in T lymphocytes. 310 34

In addition to the antigen receptor, resting T cells express a number of receptors that can be stimulated to generate proliferative signals. These "accessory" receptors require co-expression of the T cell receptor (TCR), suggesting that they channel their signals via secondary activation of the signal transduction function of the CD3-TCR complex. Little is known about how different receptors control each other's function when one or more stimuli are presented at the same time. In order to study the regulation of accessory receptors by the CD3-TCR and vice versa, we have investigated the activation of the CD2 cell adhesion molecule receptor and the pertussis toxin receptor, a 43 kDa plasma membrane protein. Both receptors can activate signal transduction pathways in T cells similar to that of the CD3-TCR, including increases in Ca2+ and phosphatidylinositol turnover. They are also similar in that they utilize the antigen receptor to transmit their signals to the cell since CD3-TCR(-) mutants cannot be activated via either CD2 or the toxin receptor. We have previously shown that submaximal stimulation of the CD3-TCR blocks second messenger generation and proliferation in response to pertussis toxin. This heterologous desensitization was unidirectional since activation of the toxin receptor had no effect on CD3-TCR function. Here we extend these studies to show that activation of both CD2 and the toxin receptor led to rapid tyrosine phosphorylation of three similar proteins. Submaximal stimulation of the CD3-TCR completely inhibited toxin receptor-stimulated tyrosine protein kinase activity but did not desensitize CD2 function as determined by activation of tyrosine protein phosphorylation. Furthermore, CD2 stimulation did not lead to desensitization of the pertussis toxin receptor. These data support a system of complex regulatory relationships between different signaling receptors and suggest a model for signal integration and inter-receptor cross-talk in T cell activation.
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PMID:Differential regulation of accessory mitogenic signaling receptors by the T cell antigen receptor. 773 70

In lymphocyte cultures, IgE production was achieved by stimulating T cells with anti-CD2 and IL-2. Here we show that anti-CD28, in the presence or absence of IL-2, reduces this IgE production approximately 10-fold. This inhibition of IgE production was almost completely reversed by Pertussis toxin (PT). PT had no effect on IgE production when the cells were stimulated in the absence of anti-CD28. No major effects of PT were found on IgM production. PT had no effect on purified B cells, stimulated with IL-4 and anti-CD40. In the presence of saturating amounts of rIL-4 similar results were obtained, albeit the absolute amounts of IgE produced were higher in all situations. Furthermore, PT-induced IgE production was still dependent on IL-4, as was evident from experiments in which anti-IL-4 was added to the culture. The IgE enhancing effect was dependent on the adenosine diphosphate (ADP)-ribosyltransferase activity of PT, because a mutant molecule lacking this activity was not able to restore anti-CD28-induced inhibition of IgE synthesis. Thus, we show that co-stimulation with anti-CD28 causes an inhibition of T cell-dependent IgE production by B cells, which inhibition can be specifically overcome by PT. An analysis of the molecular pathways underlying this phenomenon may contribute to our understanding of the regulation of IgE synthesis in (patho)physiological conditions.
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PMID:Co-stimulation of T cells via CD28 inhibits human IgE production; reversal by pertussis toxin. 788 71

It has previously been demonstrated that T lymphocytes in the conducting airways express a pattern of adhesion molecules that are uniquely different from T lymphocytes found circulating in peripheral blood. To examine the role of airway epithelia in the determination of migratory capacity for human monocyte and lymphocyte populations in vivo, we have developed an in vitro transepithelial migration model using the human transformed bronchial epithelial cell line BEAS-2B S.6. In this study, we have demonstrated the preferential migration of human peripheral blood mononuclear cells (PBMC) across BEAS-2B S.6 cell monolayers in a physiologically appropriate direction (basal to apical epithelial cell surface). Stimulation of BEAS-2B S.6 cells with a combination of interferon-gamma and tumor necrosis factor-alpha upregulated basal-to-apical transepithelial migration by at least twofold. Monocytes migrated most efficiently, but subpopulations of CD19(+) B cells and CD2(+) cells were also recruited across epithelial cell monolayers. In the T lymphocyte subset of PBMC, CD45RO+ "memory" cells migrated preferentially. In addition, CD4(+) cells exhibited a significantly greater capacity to migrate across airway epithelium compared with CD8(+) cells. Migrated CD4(+) cells were predominantly CD29(high)/CD26(high), and within this subset uniformly expressed CD62L (L-selectin) at an intermediate level. PBMC migration across BEAS-2B S.6 cells was significantly inhibited by pertussis toxin; this result implicates a G protein signaling event as an important mediator of lymphocyte/monocyte transepithelial migration. On the basis of these data, we conclude that bronchial epithelium provides a unique microenvironment that supports the selective, G protein-dependent migration of memory T cells.
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PMID:Human airway epithelial monolayers promote selective transmigration of memory T cells: a transepithelial model of lymphocyte migration into the airways. 984 23

The membrane redistribution and phosphorylation of focal adhesion kinase (FAK) have been reported to be important for cell migration. We previously showed that Lysophosphatidic acid (LPA) induced FAK membrane redistribution and autophosphorylation in ovarian cancer SK-OV3 cells and the signaling pathway consisting of Gi-Ras-MEKK1 mediated LPA-induced FAK membrane redistribution but not FAK autophosphorylation. We also showed that the disruption of the Gi-Ras-MEKK1 pathway led to a significant reduction in LPA-stimulated cell migration. These findings raised the question of whether LPA-induced FAK autophosphorylation was required for LPA-stimulated cell migration and what signaling mechanism was involved in LPA-induced FAK autophosphorylation. In this study, we expressed the membrane anchored wild-type FAK (CD2-FAK) in SK-OV3 cells and found that the expression of CD2-FAK greatly rescued LPA-stimulated cell migration in Gi or Ras-inhibited cells. However, Gi inhibitor pertussis toxin or dominant-negative H-Ras still significantly inhibited LPA-stimulated cell migration in cells expressing the membrane anchored FAK containing a mutation in the autophosphorylation site [CD2-FAK(Y397A)]. These results suggest that FAK autophosphorylation plays a role in LPA-stimulated cell migration. With the aid of p115RhoGEF-RGS, G12 and G13 minigenes to inhibit G12/13, we found that the G12/13 pathway was required for LPA-induced FAK autophosphorylation and efficient cell migration. Moreover, LPA activated RhoA and Rho kinase (ROCK) in a G12/13-dependent manner and their activities were required for LPA-induced FAK autophosphorylation. However, Rho or ROCK inhibitors displayed no effect on LPA-induced FAK membrane redistribution although they abolished LPA-induced cytoskeleton reorganization. Our studies show that the G12/13-RhoA-ROCK signaling pathway mediates LPA-induced FAK autophosphorylation and contributes to LPA-stimulated cell migration.
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PMID:The G12/13-RhoA signaling pathway contributes to efficient lysophosphatidic acid-stimulated cell migration. 1630 93

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