Abstract

Activated T cells play a pivotal role in allograft rejection. Upon activation T cells express gp39 a member of the TNF cytokine superfamily. CD40, the receptor for gp39 is expressed on a wide variety of cells, including dendritic cells, B cells, macrophages, endothelial cells (EC), and T cells. Evidence for the crucial role of gp39 in humoral immunity came from the recognition that the hyperIgM syndrome results from a defect in the gp39 gene. In addition, it has become increasingly apparent that CD4O also plays an important role in the regulation of macrophage, dendritic cell, EC and T cell function. Our central hypothesis is that the CD4O pathway plays a crucial role in the transition between the afferent and efferent phases of allograft rejection. In particular, CD40/gp39 signals are necessary for the delivery of cognate T cell help for effector cell activation and for T cell clonal expansion. We will address this hypothesis in the following specific aims: i) To define the kinetics and distribution of CD4O and gp39 expression during. allograft rejection. 2) To study the role of CD40/gp39 interactions in the T-dependent macrophage activation. Our hypothesis being that CD4O signals delivered during cognate interactions with T cells activate macrophage to express effector molecules and to exhibit effector functions. 3) To study the role of CD4O/gp39 interactions in the regulation of EC activation and leukocyte traffic during allograft rejection. We will test the hypothesis that CD4O/gp39 interactions play a critical role in the regulation of lymphocyte recruitment into allografts. 4) To study the role of CD40/gp39 interactions in the regulation of T cell clonal expansion. We hypothesize that CD4O signals antagonize pro-apoptotic signals delivered via the fas pathway. Deprivation of CD4O signals during T cell responses allows fas signals to predominate, leading to """"""""premature"""""""" activation-induced apoptosis, aborting clonal expansion. 5) To explore the mechanisms by which CTLA4-Ig and anti-gp39 synergize to inhibit allo-immune responses. Our hypothesis is that simultaneous blockade of CD28 and CD4O signals during antigen-challenge further shifts the balance toward accelerated fas-mediated activation-induced apoptosis. The CD4O pathway is distinct from other pathways previously targeted to inhibit allograft rejection. Unlike other agents anti-gp39 mAbs are not potent inhibitors of T cell activation. Rather CD4O appears to be a pivotal molecule in the transition from the afferent to the efferent phase of immune responses. As a regulator of many facets of T-dependent immune responses including T cell help for B cell, macrophage and EC activation, as well as T cell clonal expansion, further understanding the biology of the CD4O pathway promises to yield a new class of agents to therapeutically manipulate immune responses.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project (R01)
Project #
5R01AI040519-03
Application #
2837472
Study Section
Surgery, Anesthesiology and Trauma Study Section (SAT)
Program Officer
Kerr, Lawrence D
Project Start
1996-12-01
Project End
2001-11-30
Budget Start
1998-12-01
Budget End
1999-11-30
Support Year
3
Fiscal Year
1999
Total Cost
Indirect Cost

  Institution

Name
Emory University
Department
Surgery
Type
Schools of Medicine
DUNS #
042250712
City
Atlanta
State
GA
Country
United States
Zip Code
30322

  Publications

Adams, A B; Goldstein, J; Garrett, C et al. (2017) Belatacept Combined With Transient Calcineurin Inhibitor Therapy Prevents Rejection and Promotes Improved Long-Term Renal Allograft Function. Am J Transplant 17:2922-2936
Ferrer, Ivana R; Wagener, Maylene E; Song, Minqing et al. (2011) Antigen-specific induced Foxp3+ regulatory T cells are generated following CD40/CD154 blockade. Proc Natl Acad Sci U S A 108:20701-6
Turner, A P; Shaffer, V O; Araki, K et al. (2011) Sirolimus enhances the magnitude and quality of viral-specific CD8+ T-cell responses to vaccinia virus vaccination in rhesus macaques. Am J Transplant 11:613-8
Reisman, Natalie M; Floyd, Tamara L; Wagener, Maylene E et al. (2011) LFA-1 blockade induces effector and regulatory T-cell enrichment in lymph nodes and synergizes with CTLA-4Ig to inhibit effector function. Blood 118:5851-61
Ford, Mandy L; Larsen, Christian P (2011) Transplantation tolerance: memories that haunt us. Sci Transl Med 3:86ps22
Araki, Koichi; Gangappa, Shivaprakash; Dillehay, Dirck L et al. (2010) Pathogenic virus-specific T cells cause disease during treatment with the calcineurin inhibitor FK506: implications for transplantation. J Exp Med 207:2355-67
Ford, Mandy L; Larsen, Christian P (2010) Overcoming the memory barrier in tolerance induction: molecular mimicry and functional heterogeneity among pathogen-specific T-cell populations. Curr Opin Organ Transplant 15:405-10
Araki, Koichi; Turner, Alexandra P; Shaffer, Virginia Oliva et al. (2009) mTOR regulates memory CD8 T-cell differentiation. Nature 460:108-12
Gilson, Christopher R; Milas, Zvonimir; Gangappa, Shivaprakash et al. (2009) Anti-CD40 monoclonal antibody synergizes with CTLA4-Ig in promoting long-term graft survival in murine models of transplantation. J Immunol 183:1625-35
Koehn, Brent H; Ford, Mandy L; Ferrer, Ivana R et al. (2008) PD-1-dependent mechanisms maintain peripheral tolerance of donor-reactive CD8+ T cells to transplanted tissue. J Immunol 181:5313-22

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