Studies performed in the mouse model have led to the development of the clinical strategy that forms the basis of the clinical trial included in these interactive RO1'S. In the mouse model, we have observed that mixed allogeneic chimeras produced with a non-myeloablative conditioning regimen can be converted to fully donor chimeras when delayed donor leukocyte infusions are administered several weeks following the initial bone marrow transplant. Surprisingly, this """"""""lymphohematopoietic graft- versus-host reaction"""""""" is not associated with clinically evident graft- versus-host disease (GVHD). The overall goal of this project is to develop leukemia models in which mixed chimerism followed by delayed donor leukocyte infusions is used to achieve GVL effects without GVHD, and to determine the mechanisms of GVL. Both myeloid and lymphoid leukemias expressing various classes of MHC molecules will be utilized. In these models, we will evaluate the hypothesis that GVL responses are more potent in mixed chimeras than in fully allogeneic chimeras because of the efficacy of direct presentation of target alloantigens on host marrow-derived antigen-presenting cells (APC). In addition, we will evaluate the possibility that GVL effects can also occur through indirect effector mechanisms that result from presentation of host alloantigens not shared by the tumor. We will determine which type(s) of histocompatibility antigens these GVL responses are directed by comparing the ability to achieve lymphohematopoietic GVHR, including GVL, without GVHD, in the setting of various histo histocompatibilities. Furthermore, we will determine the role of donor T cell subsets in achieving the separation of GVL and GVHD in each combination. These studies are likely to lead to further refinements in the use of the mixed chimerism approach to achieve optimal GVL effects while minimizing GVHD. These improvements will be applied to the clinical trial in Project 1.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
5R01CA079989-04
Application #
6624681
Study Section
Experimental Therapeutics Subcommittee 1 (ET)
Program Officer
Wu, Roy S
Project Start
1999-12-21
Project End
2003-11-30
Budget Start
2002-12-01
Budget End
2003-11-30
Support Year
4
Fiscal Year
2003
Total Cost
$221,230
Indirect Cost
Name
Massachusetts General Hospital
Department
Type
DUNS #
073130411
City
Boston
State
MA
Country
United States
Zip Code
02199
Sykes, M (2015) Immune tolerance in recipients of combined haploidentical bone marrow and kidney transplantation. Bone Marrow Transplant 50 Suppl 2:S82-6
Li, Hao Wei; Sykes, Megan (2012) Emerging concepts in haematopoietic cell transplantation. Nat Rev Immunol 12:403-16
Flutter, Barry; Edwards, Noha; Fallah-Arani, Farnaz et al. (2010) Nonhematopoietic antigen blocks memory programming of alloreactive CD8+ T cells and drives their eventual exhaustion in mouse models of bone marrow transplantation. J Clin Invest 120:3855-68
Saito, Toshiki I; Fujisaki, Joji; Carlson, Alicia L et al. (2010) Persistence of donor-derived protein in host myeloid cells after induced rejection of engrafted allogeneic bone marrow cells. Exp Hematol 38:333-9
Saito, Toshiki I; Li, Hao Wei; Sykes, Megan (2010) Invariant NKT cells are required for antitumor responses induced by host-versus-graft responses. J Immunol 185:2099-105
Sykes, Megan (2009) Mechanisms of transplantation tolerance in animals and humans. Transplantation 87:S67-9
Sykes, Megan (2009) Hematopoietic cell transplantation for tolerance induction: animal models to clinical trials. Transplantation 87:309-16
Chakraverty, Ronjon; Flutter, Barry; Fallah-Arani, Farnaz et al. (2008) The host environment regulates the function of CD8+ graft-versus-host-reactive effector cells. J Immunol 181:6820-8
Gibbons, Carrie; Sykes, Megan (2008) Manipulating the immune system for anti-tumor responses and transplant tolerance via mixed hematopoietic chimerism. Immunol Rev 223:334-60
Sykes, M (2007) Immune tolerance: mechanisms and application in clinical transplantation. J Intern Med 262:288-310

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