Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:4.6.1.1 (adenylate cyclase)
 19,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The putative guanine nucleotide binding (G)-protein involved in transduction of signals from the TCR/CD3 complex has not been identified. We have used a UV-photoaffinity labeling technique to covalently attach [alpha-32P]GTP to human lymphocyte and thymocyte membrane proteins. Ten bands specifically labeled with [32P]GTP were detected by SDS-PAGE and autoradiography in T lymphocyte membranes. Among these, a 40-kDa protein was identified by immunoblotting as the alpha-subunit of the adenylate cyclase-inhibiting G-protein, Gi, and two proteins of 44 and 46 kDa were identified as the alpha-subunits of adenylate cyclase stimulating G-protein (Gs). These proteins also served as substrates for ADP-ribosylation by pertussis toxin and cholera toxin, respectively. Comparison of GTP-labeled membrane proteins from immature and more mature thymocytes and blood T lymphocytes, revealed that bands of 26, 30, 34, 40, 44 and 46 kDa were absent or weakly labeled in immature thymocytes, intermediate in mature thymocytes, and strongest in blood T cells. Similar increases were seen in ADP ribosylation of the substrates for pertussis, cholera, and botulinum C3 toxin. However, corresponding quantitative changes in Gi and Gs were not detected by immunoblotting, which suggests that the increased labeling is caused by enhanced affinity of the proteins for GTP rather than by increased amount of protein during thymic maturation. A concomitant maturation of GTP-induced cAMP production was seen in the cell populations, but no such change occurred in direct activation of adenylate cyclase by forskolin. The changes in some (but not all) GTP-binding proteins during acquisition of immunocompetence indicates their importance in T lymphocyte physiology.
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PMID:Functional maturation of human T lymphocytes is accompanied by changes in the G-protein pattern. 215 32

The catalytic subunit of cholera toxin (CT) can chemically modify the alpha polypeptides of certain G-binding proteins and thus alter their function. In order to study the involvement of CT-sensitive G proteins in T cell activation, we have utilized CT in an in vitro system in which purified, resting human peripheral T cells are activated by anti-CD3 antibodies and rIL-2. Perturbation of the TCR/CD3 molecular complex by anti-CD3 antibodies causes changes in membrane phospholipids and induces a rise in cytoplasmic Ca2+. These events, however, are insufficient to allow progression into cellular proliferation and addition of IL-2 is required. Under these conditions, treatment of cells with a low concentration of CT (2 ng/ml) causes a significant inhibition of the anti-CD3-induced calcium event as well as the anti-CD3 plus IL-2-stimulated proliferation. Under our experimental conditions, inhibition of both proliferation and intracellular Ca2+ elevation by CT requires the involvement of the TCR/CD3 complex. This is supported by the observation that the toxin does not inhibit either the proliferation triggered by ionomycin and PMA or the Ca2+ influx induced by the ionophore. These data suggest that in TCR/CD3-mediated T cell activation CT acts at a point between TCR/CD3 perturbation and the generation of intracellular Ca2+. In view of the ability of CT to activate the alpha subunit of the G protein that stimulates adenyl cyclase (G alpha s), it is possible that the effect of CT on T cells is secondary to intracellular elevation of cAMP. However, measurement of cAMP levels both early after CT addition and at later time points, when proliferation is maximal, reveals lack of cyclic nucleotide accumulation. The presented data are consistent with the interpretation that the CT-mediated inhibition is caused by the modification of a G-binding protein that is either directly or indirectly associated with triggering of T cells via the TCR/CD3 molecular complex. The data also suggest that this protein is not G alpha s and it probably represents an as yet unidentified moiety or one of the several G proteins that have been recently described as regulators of phospholipase C activation.
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PMID:Cholera toxin inhibits resting human T cell activation via a cAMP-independent pathway. 255 13

Activation of T cells by lectins or mAb directed at components of the Ag-specific TCR results in hydrolysis of phosphorylated derivatives of phosphatidylinositol and an increase in intracellular free calcium concentration (Cai). We report that cholera toxin, which activates adenylate cyclase by ADP ribosylation of a G protein, also reduces both inositol phosphate (IP) production and the rise in Cai in Con A-stimulated murine T cells. We find that similar dose-dependent inhibitory effects can be induced by each of four other agents that raise cAMP levels in such cells: forskolin, PGE2, 2-chloroadenosine, and isoproterenol. The effects of these agents on IP production are reversible and therefore do not simply reflect cytotoxicity. Activation by PHA and by antibody to the T3-epsilon-chain of the TCR complex are also inhibited by agents that increase intracellular cAMP. Thus, changes in cAMP concentration seem to regulate both IP production and the Ca2+ response, two early components of the mitogen-induced activation process.
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PMID:Cyclic AMP concentrations modulate both calcium flux and hydrolysis of phosphatidylinositol phosphates in mouse T lymphocytes. 282 73

Regulation of lymphocyte responses to activation of the CD3/TCR complex by other cell surface proteins expressed on lymphocytes is a well established phenomenon. CD44 is an example of such a cell surface protein. Anti-CD44 mAb have been identified which either stimulate or inhibit lymphocyte function. Certain anti-CD44 mAb augment proliferation and IL-2 production by T cells stimulated through the CD2 or CD3/TCR pathways. An anti-CD44 mAb with opposing properties has also been identified. This mAb inhibits activation of human T cells by preventing the rise in [Ca2+]i stimulated by OKT3. The purpose of experiments reported here was to further characterize this phenomenon. The results show that the anti-CD44 mAb, 212.3, does not inhibit inositol phosphate turnover stimulated by OKT3 but does inhibit elevation of intracellular [Ca2+]i in these same cells. Addition of 212.3 to purified human T cells results in a rapid increase in intracellular levels of cAMP. Elevation of cAMP by 212.3 is time- and concentration-dependent. Activation of adenylate cyclase by forskolin also results in elevation of intracellular cAMP and inhibition of the increase in [Ca2+]i stimulated by OKT3. Taken together, these data suggest that CD44 may be positively coupled to adenylate cyclase and that activation of adenylate cyclase by the anti-CD44 mAb, 212.3, may mediate the inhibition of the OKT3-stimulated elevation of [Ca2+]i.
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PMID:Elevation of intracellular cAMP in human T lymphocytes by an anti-CD44 mAb. 750 12

The signaling mechanisms that regulate lymphokine gene expression in the murine Th2 clone D10.G4.1 were investigated by comparing the steady state mRNA levels of six lymphokine genes in response to cellular treatment with various activators and inhibitors of several key signaling pathways. A surprising degree of differential regulation was found. All of the genes studied (IL-3, IL-4, IL-5, IL-6, IL-10, and granulocyte-macrophage (GM)-CSF) were induced by the lectin Con A and the TCR idiotype-specific mAb 3D3. However, the induction of the IL-3, IL-4, and GM-CSF genes, but not the IL-5, IL-6, and IL-10 genes, was strongly inhibited by cyclosporin A. Furthermore, IL-5, IL-6, and IL-10 genes were independently induced by IL-1 alpha, the phorbol ester PMA, and by forskolin, an activator of adenylate cyclase. Results of studies performed with use of the Ca2+ ionophore A23187 indicated that elevation of intracellular Ca2+ levels is sufficient to fully induce IL-3 and IL-4 gene expression. Protein kinase C activation was also required for full induction of the GM-CSF gene and seemed to be obligatory for maximal IL-5 gene expression. The patterns of mRNA induction by the different stimuli broadly correlated with increased rates of transcription. In addition to their induction by IL-1 alpha, the IL-5, IL-6, and IL-10 genes were also induced by mAbs to CD2 and to CD45. In contrast, adding CD45 mAb strongly inhibited the induction of IL-3, IL-4, and GM-CSF genes through TCR stimulation. These results indicate that distinct groups of lymphokine genes may be differentially regulated by signaling pathways that are activated by stimulation of the TCR and other cell surface molecules.
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PMID:TCR-dependent and -independent signaling mechanisms differentially regulate lymphokine gene expression in the murine T helper clone D10.G4.1. 791 89

Differentiation of T lymphocytes is a complex and finely tuned process. Here we show that treatment of mouse fetal thymus organ cultures with agents activating the cAMP-dependent signalling pathway results in the block of thymocyte differentiation. This is due to severe impairment of maturation beyond the CD4-/CD8- stage. In addition, rearrangements at the TCR alpha gene locus, but not at the TCR beta locus, are completely inhibited. The cAMP effect is reversible and is restricted to TCR alpha beta+ cells. cAMP acts both by triggering apoptosis and by inducing cell-cycle block in thymocytes. Thus, activation of the cAMP pathway provides a mechanism to modulate thymic function for hormones and ligands whose receptors are coupled to adenylate cyclase.
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PMID:Block of T lymphocyte differentiation by activation of the cAMP-dependent signal transduction pathway. 859 36

The induction of T cell proliferation requires signals from the TCR and a co-receptor molecule, such as CD28, that activate parallel and partially cross-reactive signaling pathways. These pathways are disrupted by agonists that utilize adenylate cyclase and cAMP-dependent protein kinase A (PKA). We found that the adenylate cyclase activator, forskolin, inhibits anti-CD3-induced shift in Lck electrophoretic mobility, suggesting an intervention at the TCR-coupled phosphoinositide turnover that precedes the activation of PKC. The shift of Lck following direct PKC activation by 12-O-tetradecanoyl phorbol 13-acetate, which bypasses early receptor-triggered biochemical events, is insensitive to forskolin. Nevertheless, forskolin also inhibits PKC downstream events, such as c-jun expression, which is critical for the activation process of T cells. To further analyze potential cross points between positively and negatively regulating signaling pathways in T cells, we tested the effects of activators of the adenylate cyclase or PKA on two parallel mitogen-activated protein kinase signaling pathways mediated by extracellular signal-regulated kinase (ERK) and c-Jun N-terminal kinase. Using a PKC-specific inhibitor, GF109203X, or PKC-depleted T cells, we found that a large part of the anti-CD3-induced ERK activation is PKC dependent. Both PKC-dependent and -independent activation of ERK were sensitive to inhibition by forskolin or a cell-permeable cAMP analogue, dbcAMP. Furthermore, the effect of 12-O-tetradecanoyl phorbol 13-acetate and ionomycin, which synergized to fully activate c-Jun N-terminal kinase, was also sensitive to inhibition by forskolin. Our results suggest that PKA inhibits T cell activation by interfering with multiple events along the two signaling pathways operating downstream of the TCR and the CD28 co-receptor molecules.
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PMID:Inhibition of T lymphocyte activation by cAMP is associated with down-regulation of two parallel mitogen-activated protein kinase pathways, the extracellular signal-related kinase and c-Jun N-terminal kinase. 875 33

Previously, we have shown that both T and B lymphocytes from chronically nicotine-treated (NT) animals exhibit tolerance to activation by Ags (ligation of Ag receptors), as indicated by their decreased ability to mobilize intracellular calcium and, at least in T cells, arrest of cells in the G0/G1 phase of the cell cycle. Herein, we demonstrate that NT T cells significantly lose their ability to up-regulate inositol trisphosphate synthesis in response to TCR ligation or nonspecific activation of G proteins by AIF-4. However, increases in cAMP concentrations of T cells following activation of G protein-sensitive adenylate cyclase by cholera or pertussis toxin were not significantly affected by the nicotine treatment. Interestingly, compared with control T cells, the background levels of inositol trisphosphate were significantly elevated in NT T cells, indicating some degree of activation in these cells. This inference was further supported by observations that naive T cells from NT animals exhibit tyrosine phosphorylation of several substrates, including phospholipase C-gamma1, which were either absent or underphosphorylated in unstimulated control T cells. Moreover, when, after 4-wk nicotine treatment, nicotine pumps were removed and serum cotinine levels fell to background, inhibition of the Ab-forming cells and Ca2+ responses continued for at least 2 more wk. These results suggest that chronic in vivo nicotine exposure leads to T cell anergy and may contribute to nicotine/cigarette smoke-induced immunosuppression.
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PMID:Effects of nicotine on the immune response. II. Chronic nicotine treatment induces T cell anergy. 878 95

We have previously shown that the major cAMP phosphodiesterase (PDE) isoforms present in murine thymocytes are the cGMP-stimulated PDE activity (PDE-2) and the cAMP-specific PDE activity (PDE-4), and that these isoforms are differentially regulated following ligation of the TCR (Michie, A.M., Lobban, M. D., Mueller, T., Harnett, M. M., and Houslay, M.D. [1996] Cell. Signalling 8, 97-110). We show here that the anti-CD3-stimulated elevation in PDE-4 activity in murine thymocytes is dependent on protein tyrosine kinase and protein kinase C (PKC)-mediated signals as the TCR-coupled increase in PDE-4 activity can be abrogated by both the tyrosine kinase inhibitor, genistein, and the PKC selective inhibitors chelerythrine and staurosporine. Moreover, the PKC-activating phorbol ester, phorbol-12-myristate, 13-acetate (PMA) caused an increase in PDE-4 activity, similar to that observed in cells challenged with anti-CD3 monoclonal antibodies and which was not additive with cochallenge using anti-CD3 antibodies. Both the PMA- and the anti-CD3 antibody-mediated increases in PDE-4 activity were blocked by treatment with either cycloheximide or actinomycin D. Despite the upregulation of PDE-4 activity consequent to TCR ligation, intracellular cAMP levels increased on challenge of thymocytes with anti-CD3 antibody, indicating that adenylate cyclase activity was also increased by TCR ligation. It is suggested that the anti-CD3-mediated increase in PDE-4 activity was owing to a rapid PKC-dependent induction of PDE-4 activity following crosslinking of the TCR complex. This identifies "crosstalk" occurring between the PKA and PKC signaling pathways initiated by ligation of the antigen receptor in murine thymocytes. That both adenylate cyclase and PDE-4 activities were increased may indicate the presence of compartmentalized cAMP responses present in these cells.
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PMID:Upregulation of cAMP-specific PDE-4 activity following ligation of the TCR complex on thymocytes is blocked by selective inhibitors of protein kinase C and tyrosyl kinases. 951 65

The adjuvanticity of bacterial adenylate cyclase toxins has been ascribed to their capacity, largely mediated by cAMP, to modulate APC activation, resulting in the expression of Th2-driving cytokines. On the other hand, cAMP has been demonstrated to induce a Th2 bias when present during T cell priming, suggesting that bacterial cAMP elevating toxins may directly affect the Th1/Th2 balance. Here we have investigated the effects on human CD4(+) T cell differentiation of two adenylate cyclase toxins, Bacillus anthracis edema toxin (ET) and Bordetella pertussis CyaA, which differ in structure, mode of cell entry, and subcellular localization. We show that low concentrations of ET and CyaA, but not of their genetically detoxified adenylate cyclase defective counterparts, potently promote Th2 cell differentiation by inducing expression of the master Th2 transcription factors, c-maf and GATA-3. We also present evidence that the Th2-polarizing concentrations of ET and CyaA selectively inhibit TCR-dependent activation of Akt1, which is required for Th1 cell differentiation, while enhancing the activation of two TCR-signaling mediators, Vav1 and p38, implicated in Th2 cell differentiation. This is at variance from the immunosuppressive toxin concentrations, which interfere with the earliest step in TCR signaling, activation of the tyrosine kinase Lck, resulting in impaired CD3zeta phosphorylation and inhibition of TCR coupling to ZAP-70 and Erk activation. These results demonstrate that, notwithstanding their differences in their intracellular localization, which result in focalized cAMP production, both toxins directly affect the Th1/Th2 balance by interfering with the same steps in TCR signaling, and suggest that their adjuvanticity is likely to result from their combined effects on APC and CD4(+) T cells. Furthermore, our results strongly support the key role of cAMP in the adjuvanticity of these toxins.
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PMID:The adenylate cyclase toxins of Bacillus anthracis and Bordetella pertussis promote Th2 cell development by shaping T cell antigen receptor signaling. 1926 22


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