Thromboxane A2 modulates interaction of dendritic cells and T cells and regulates acquired immunity (original) (raw)
Grabbe, S. & Schwarz, T. Immunoregulatory mechanisms involved in elicitation of allergic contact hypersensitivity. Immunol. Today19, 37–44 (1998). ArticleCAS Google Scholar
Lanzavecchia, A. & Sallusto, F. Regulation of T cell immunity by dendritic cells. Cell106, 263–266 (2001). ArticleCAS Google Scholar
Paul, W.E. & Seder, R.A. Lymphocyte responses and cytokines. Cell76, 241–251 (1994). ArticleCAS Google Scholar
Monks, C.R., Freiberg, B.A., Kupfer, H., Sciaky, N. & Kupfer, A. Three-dimensional segregation of supramolecular activation clusters in T cells. Nature395, 82–86 (1998). ArticleCAS Google Scholar
Grakoui, A. et al. The immunological synapse: a molecular machine controlling T cell activation. Science285, 221–227 (1999). ArticleCAS Google Scholar
Iezzi, G., Karjalainen, K. & Lanzavecchia, A. The duration of antigenic stimulation determines the fate of naive and effector T cells. Immunity8, 89–95 (1998). ArticleCAS Google Scholar
Narumiya, S., Sugimoto, Y. & Ushikubi, F. Prostanoid receptors: structures, properties, and functions. Physiol. Rev.79, 1193–1226 (1999). ArticleCAS Google Scholar
FitzGerald, G.A., Healy, C. & Daugherty, J. Thromboxane A2 biosynthesis in human disease. Fed. Proc.46, 154–158 (1987). CASPubMed Google Scholar
Namba, T. et al. Mouse thromboxane A2 receptor: cDNA cloning, expression and northern blot analysis. Biochem. Biophys. Res. Commun.184, 1197–1203 (1992). ArticleCAS Google Scholar
Ushikubi, F. et al. Thromboxane A2 receptor is highly expressed in mouse immature thymocytes and mediates DNA fragmentation and apoptosis. J. Exp. Med.178, 1825–1830 (1993). ArticleCAS Google Scholar
Murota, S., Kawamura, M. & Morita, I. Transformation of arachidonic acid into thromboxane B2 by the homogenates of activated macrophages. Biochim. Biophys. Acta528, 507–511 (1978). ArticleCAS Google Scholar
Nüsing, R. & Ullrich, V. Immunoquantitation of thromboxane synthase in human tissues. Eicosanoids3, 175–180 (1990). PubMed Google Scholar
Tone, Y. et al. Abundant expression of thromboxane synthase in rat macrophages. FEBS Lett.340, 241–244 (1994). ArticleCAS Google Scholar
Brune, K., Glatt, M., Kalin, H. & Peskar, B.A. Pharmacological control of prostaglandin and thromboxane release from macrophages. Nature274, 261–263 (1978). ArticleCAS Google Scholar
Nüsing, R. et al. Localization of thromboxane synthase in human tissues by monoclonal antibody Tü 300. Virchows Arch. A Pathol. Anat. Histopathol.421, 249–254 (1992). Article Google Scholar
Morinelli, T.A. et al. Characterization of an 125I-labeled thromboxane A2/prostaglandin H2 receptor agonist. J. Pharmacol. Exp. Ther.251, 557–562 (1989). CASPubMed Google Scholar
Thomas, D.W. et al. Coagulation defects and altered hemodynamic responses in mice lacking receptors for thromboxane A2 . J. Clin. Invest.102, 1994–2001 (1998). ArticleCAS Google Scholar
Kouzan, S. et al. Stimulation of arachidonic acid metabolism by adherence of alveolar macrophages to a plastic substrate. Modulation by fetal bovine serum. Am. Rev. Respir. Dis.137, 38–43 (1988). ArticleCAS Google Scholar
Truneh, A., Albert, F., Golstein, P. & Schmitt-Verhulst, A.M. Early steps of lymphocyte activation bypassed by synergy between calcium ionophores and phorbol ester. Nature313, 318–320 (1985). ArticleCAS Google Scholar
Al-Alwan, M., Rowden, G., Lee, T.D.G. & West, K.A. The dendritic cell cytoskeleton is critical for the formation of the immunological synapse. J. Immunol.166, 1452–1456 (2001). ArticleCAS Google Scholar
Lanzavecchia, A. & Sallusto, F. Antigen decoding by T lymphocytes: from synapses to fate determination. Nat. Immunol.2, 487–492 (2001). ArticleCAS Google Scholar
Zheng, L. et al. Induction of apoptosis in mature T cells by tumour necrosis factor. Nature377, 348–351 (1995). ArticleCAS Google Scholar
Inaba, K. & Steinman, R.M. Monoclonal antibodies to LFA-1 and to CD4 inhibit the mixed leukocyte reaction after the antigen-dependent clustering of dendritic cells and T lymphocytes. J. Exp. Med.165, 1403–1417 (1987). ArticleCAS Google Scholar
Katagiri, K., Hattori, M., Minato, N. & Kinashi, T. Rap1 functions as a key regulator of T-cell and antigen-presenting cell interactions and modulates T-cell responses. Mol. Cell. Biol.22, 1001–1015 (2002). ArticleCAS Google Scholar
Bromley, S.K., Peterson, D.A., Gunn, M.D. & Dustin, M.L. Hierarchy of chemokine receptor and TCR signals regulating T cell migration and proliferation. J. Immunol.165,15–19 (2000). ArticleCAS Google Scholar
Krummel, M.F. & Davis, M.M. Dynamics of the immunological synapse: finding, establishing and solidifying a connection. Curr. Opin. Immunol.14, 66–74 (2002). ArticleCAS Google Scholar
Allen, P.M. & Unanue, E.R. Differential requirements for antigen processing by macrophages for lysozyme-specific T cell hybridomas. J. Immunol.132, 1077–1079 (1984). CASPubMed Google Scholar
Lombard-Platlet, S., Bertolino, P., Deng, H., Gerlier, D. & Rabourdin-Combe, C. Inhibition of chloroquine of the class II major histocompatibility complex-restricted presentation of endogenous antigens varies according to the cellular origin of the antigen-presenting cells, the nature of the T-cell epitope, and the responding T cell. Immunology80, 566–573 (1993). CASPubMedPubMed Central Google Scholar
Kurimoto, I. et al. Studies of contact hypersensitivity induction in mice with optimal sensitizing doses of hapten. J. Invest. Dermatol.101, 132–136 (1993). ArticleCAS Google Scholar
Hanasaki, K. & Arita, H. Characterization of a new compound, S-145, as a specific TXA2 receptor antagonist in platelets. Thromb. Res.50, 365–376 (1988). ArticleCAS Google Scholar
Nagai, H. et al. Different role of IL-4 in the onset of hapten-induced contact hypersensitivity in BALB/c and C57BL/6 mice. Br. J. Pharmacol.129, 299–306 (2000). ArticleCAS Google Scholar
Ogletree, M.L. Overview of physiological and pathophysiological effects of thromboxane A2 . Fed Proc.46, 133–138 (1987). CASPubMed Google Scholar
Daniel, T.O., Liu, H., Morrow, J.D., Crews, B.C. & Marnett, L.J. Thromboxane A2 is a mediator of cyclooxygenase-2-dependent endothelial migration and angiogenesis. Cancer Res.59, 4574–4577 (1999). CASPubMed Google Scholar
Dustin, M.L. & Cooper, J.A. The immunological synapse and the actin cytoskeleton: molecular hardware for T cell signaling. Nat. Immunol.1, 23–29 (2000). ArticleCAS Google Scholar
Dustin, M.L. et al. A novel adaptor protein orchestrates receptor patterning and cytoskeletal polarity in T-cell contacts. Cell94, 667–677 (1998). ArticleCAS Google Scholar
Wülfing, C., Sjaastad, M.D. & Davis, M.M. Visualizing the dynamics of T cell activation: Intracellular adhesion molecule 1 migrates rapidly to the T cell/B cell interface and acts to sustain calcium levels. Proc. Natl. Acad. Sci. USA95, 6302–6307 (1998). Article Google Scholar
Bleijs, D.A., Geijtenbeek, T.B., Figdor, C.G. & van Kooyk, Y. DC-SIGN and LFA-1: a battle for ligand. Trends. Immunol.22, 457–463 (2001). ArticleCAS Google Scholar
Yong, K. & Khwaja, A. Leucocyte cellular adhesion molecules. Blood Rev.4, 211–225 (1990). ArticleCAS Google Scholar
Cifone, M.G. et al. Effect of hrTNF α on TxB2 release by macrophages. Int. J. Tissue React.9, 51–53 (1987). CASPubMed Google Scholar
Conti, P. et al. In vitro enhanced thromboxane B2 release by polymorphonuclear leukocytes and macrophages after treatment with human recombinant interleukin 1. Prostaglandins32, 111–115 (1986). ArticleCAS Google Scholar
Goldstein, I.M. et al. Thromboxane generation by human peripheral blood polymorphonuclear leukocytes. J. Exp. Med.148, 787–792 (1978). ArticleCAS Google Scholar
Sun, L.K., Wahl, P., Bilic, G. & Wuthrich, R.P. CD44-mediated cyclooxygenase-2 expression and thromboxane A2 production in RAW 264.7 macrophages. Inflamm. Res.50, 496–499 (2001). ArticleCAS Google Scholar
Wrenger, S. et al. Down-regulation of T cell activation following inhibition of dipeptidyl peptidase IV/CD26 by the N-terminal part of the thromboxane A2 receptor. J. Biol. Chem.275, 22180–22186 (2000). ArticleCAS Google Scholar
Mitsuhashi, M. et al. Necessity of thromboxane A2 for initiation of platelet-mediated contact sensitivity: dual activation of platelets and vascular endothelial cells. J. Immunol.166, 617–623 (2001). ArticleCAS Google Scholar
Kabashima, K. et al. The prostaglandin receptor EP4 suppresses colitis, mucosal damage and CD4 cell activation in the gut. J. Clin. Invest.109, 883–893 (2002). ArticleCAS Google Scholar
Kweon, M.N., Yamamoto, M., Kajiki, M., Takahashi, I. & Kiyono, H. Systemically derived large intestinal CD4+TH2 cells play a central role in STAT6-mediated allergic diarrhea. J. Clin. Invest.106, 199–206 (2000). ArticleCAS Google Scholar