Antigen Specific T Cell Tolerance by Anti CD3 Antibodies
Anasetti, Claudio   
Fred Hutchinson Cancer Research Center, Seattle, WA, United States

The long term goal of this project is to develop methods for induction of peripheral T cell tolerance, that could improve prevention of graft rejection and graft-versus-host disease (GVHD) after human marrow transplantation. The applicant has established that activation driven-cell death is induced selectively in antigen-activated, cycling CD4+ or CD8+ T cells by soluble anti-CD3 epsilon F(ab')2 antibody fragments. These results suggested that anti-CD3 antibodies can induce immunosuppression by activation-dependent T cell death. The central aim of this application is to determine whether treatment with anti-CD3 antibodies achieves tolerance in MHC-incompatible murine model of GVHD by specific deletion of donor T cells that recognize recipient alloantigens.
Specific aims are: 1) Determine whether in vivo treatment with anti-CD3 F(ab')2 prevents GVHD by deletion of allospecific T cells in mice. The applicant has chosen to study GVHD mediated by TCR-transgenic 2C cells because: A) the CD8+ TCR-transgenic 2C cells can cause GVHD in Ld+ mice, manifested by the depletion of recipient double positive thymocytes, and peripheral B and T cells; b) 2C cells can be visualized by staining for a TCR clonotypic determinant recognized by mAb 1B2, allowing him to determine the 2C cell fate. 2) Effect of TCR affinity for peptide:MHC on T cell fate. T cells with low affinity TCR may persist longer in an allogenic recipient and cause sustained GVHD more likely than T cells with high affinity TCR. He will test the effect of anti-CD3-treatment on the fate of CD8+ T cells from the 2C mouse transplanted into recipients that express alloantigens of various strengths: Ld, Kbm3, and Kmb11. 3) Effect of memory on T cell fate. Memory T cells have high avidity for antigen and antigen presenting cells than naive T cells and develop a more intense proliferative response to antigen. Antigen-primed T cells may cause more severe GVHD, but they should be very susceptible to the effects of anti-CD3 (F(ab')2. 4) Effect of help on T cell fate. CD+ T cells can provide help to CD8+ T cells by releasing cytokine, including IL-2, IL-12 and gamma-IFN, that promote cell replication and effector function, and by their surface expression of accessory molecules. He will test the hypotheses that CD4+ T cells enhance and sustain the activity of CD8+ cells, and that treatment with anti-CD3 F(ab')2 can abrogate CD4+ T cell help.