T cell responses are controlled by intracellular signals emanating from ligation of cell surface receptors. While the concept of a second signal has been established for many years, with CD28 representing the initial provider of this second signal, it is clear that signals from several other costimulatory receptors are needed for an effective and persistent T cell response. We have extensively studied a member of the TNFR family, namely OX40 (CD134), whose expression is induced on T cells several hours to days after the initial antigen recognition event. We have demonstrated that 0X40 costimulation prolongs clonal expansion of CD4 and CDS T cells by regulating cell cycle progression;enhances T cell differentiation and cytokine secretion particularly toward the Th2 phenotype;and furthermore promotes T cell survival by antagonizing apoptosis. Multiple in vivo studies in varying models of disease over the past 5 or more years have reinforced these conclusions and led to the concept that the synergistic and temporal activities of CD28 and OX40 represent key events in most T cell mediated immune responses. In this renewal application, we seek to extend our functional data and further define molecularly the mode of action of OX40 and how OX40 signals integrate with antigen and CD28 signals. We have shown several common intracellular targets of OX40 including novel molecules survivin and aurora B kinase that regulate G1-S cell cycle progression, and Bcl-2, Bcl-xL, and Bfl-1 that control survival during and after the phase of T cell division. We have developed highly physiological and novel transgenic and retroviral systems to understand regulation of OX40 in primary T cells. We will investigate how OX40 leads to activation of Akt and NF-KB and the extent that these signaling moieties co-operate in promoting cell division and survival of T cells. Specifically, we will determine whether OX40 utilizes PKC0, PDK1, and MEK1/ERK to target Akt and NF-KB, and how these signaling cascades impact the expression and function of survivin and aurora B kinase in regulating division, and the Bcl-2 anti-apoptotic molecules in regulating survival. We will further define how OX40 targets NFATd nuclear accumulation leading to IL-4 secretion and Th2 differentiation, and then define signaling complexes induced by OX40 at the T cell membrane in lipid rafts. Lastly, we will use several models of in vivo T cell response involving lung inflammation and anti-tumor activity to extend the in vitro signaling analyses and understand molecularly how costimulatory signaling impacts physiological T cell function. These studies are tremendously important in defining the action of OX40 and the integration of costimulatory signals, and in understanding which molecular pathways are necessary and sufficient for promoting a long-lived T cell response.

National Institute of Health (NIH)
National Institute of Allergy and Infectious Diseases (NIAID)
Research Project (R01)
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Cellular and Molecular Immunology - B Study Section (CMIB)
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Lapham, Cheryl K
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La Jolla Institute
La Jolla
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Nagashima, Hiroyuki; Okuyama, Yuko; Asao, Atsuko et al. (2014) The adaptor TRAF5 limits the differentiation of inflammatory CD4(+) T cells by antagonizing signaling via the receptor for IL-6. Nat Immunol 15:449-56
Croft, Michael (2014) The TNF family in T cell differentiation and function--unanswered questions and future directions. Semin Immunol 26:183-90
Boettler, Tobias; Choi, Youn Soo; Salek-Ardakani, Shahram et al. (2013) Exogenous OX40 stimulation during lymphocytic choriomeningitis virus infection impairs follicular Th cell differentiation and diverts CD4 T cells into the effector lineage by upregulating Blimp-1. J Immunol 191:5026-35
Croft, Michael; Benedict, Chris A; Ware, Carl F (2013) Clinical targeting of the TNF and TNFR superfamilies. Nat Rev Drug Discov 12:147-68
Croft, Michael; Duan, Wei; Choi, Heonsik et al. (2012) TNF superfamily in inflammatory disease: translating basic insights. Trends Immunol 33:144-52
So, Takanori; Soroosh, Pejman; Eun, So-Young et al. (2011) Antigen-independent signalosome of CARMA1, PKC?, and TNF receptor-associated factor 2 (TRAF2) determines NF-?B signaling in T cells. Proc Natl Acad Sci U S A 108:2903-8
So, Takanori; Choi, Heonsik; Croft, Michael (2011) OX40 complexes with phosphoinositide 3-kinase and protein kinase B (PKB) to augment TCR-dependent PKB signaling. J Immunol 186:3547-55
Doherty, Taylor A; Croft, Michael (2011) Therapeutic potential of targeting TNF/TNFR family members in asthma. Immunotherapy 3:919-21
Soroosh, Pejman; Doherty, Taylor A; So, Takanori et al. (2011) Herpesvirus entry mediator (TNFRSF14) regulates the persistence of T helper memory cell populations. J Exp Med 208:797-809
Bresson, Damien; Fousteri, Georgia; Manenkova, Yulia et al. (2011) Antigen-specific prevention of type 1 diabetes in NOD mice is ameliorated by OX40 agonist treatment. J Autoimmun 37:342-51

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