Abstract

We have demonstrated that following the rejection of an allograft, processed fragments of the donor major histocompatibility antigens (MHC) class II molecules are presented by recipient antigen presenting cells (APCs) to alloreactive T cells. Recently, this finding has been confirmed by other investigators in both human and rat systems. this self-restricted component of the alloresponse may play an important role in perpetuating the rejection of the transplant by providing help for the production of donor-directed antibodies and by continuous lymphokine release leading to delayed type hypersensitivity (DTH) and cytotoxic T cell activity. More recently, by using a series of overlapping MHC peptides progressing along the sequence of the donor MHC molecule in single residue steps, we mapped all potential MHC antigen determinants to which T cell responses could be generated following an allo- transplant. We observed that the T cell response to beta1 domains of allogeneic Ak, Ad and As mouse MHC class II molecules is directed towards a single immunodominant determinant in each of three donor/recipient combinations (G. Benichou et al. Nature, submitted). Therefore, immune interventions such as tolerance induction to the dominant T cell determinant, which have proven to be effective in the therapy of autoimmune disease, may be developed for the prevention of allograft rejection. Many immunosuppressive drugs have been shown to be efficient in blocking rejection during the early and acute phase of the process. Nevertheless, 1) these drugs are blocking non-specifically the entire immune system harming the patient by reducing its protection against infection and cancer cells, 2) these drugs are often toxic, 3) these drugs are often inefficient in the long run at preventing the perpetuation of the rejection process. Peptide therapy may represent a specific and nontoxic way to prevent or delay the rejection of the graft, by targeting the relevant alloreactive T cells without affecting the rest of the immune system. The goals of this project are 1) to investigate the contribution of donor MHC peptides in in vivo allorecognition and their role in allotransplant rejection, 2) to inhibit the self-restricted T cell response to donor-MHC peptides by tolerance induction to the dominant T cell determinants or by blocking the main T cell clones by anti-TCR antibodies in order to prevent, delay or block the rejection of the graft.
Specific aim 1 : To map the T cell determinant(s) present on murine (H-2) and human (HLA) molecules.
Specific aim 2 : 2a) To determine the frequency of CD4+ T helper as well as CD8+ cytotoxic T cells directed against donor-MHC peptides. 2b) To determine the frequency of memory T cells specific for donor-MHC peptides and establish their contribution in perpetuating the rejection of the graft.
Specific aim 3 : To define the T cell receptor (TCR) V genes used by alloreactive T cells directed towards donor-MHC peptides during graft rejection.
Specific aim 4 : To induce tolerance to the dominant donor-MHC peptides.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
First Independent Research Support & Transition (FIRST) Awards (R29)
Project #
5R29AI033704-05
Application #
2442534
Study Section
Surgery, Anesthesiology and Trauma Study Section (SAT)
Project Start
1993-07-01
Project End
1998-06-30
Budget Start
1997-07-01
Budget End
1998-06-30
Support Year
5
Fiscal Year
1997
Total Cost
Indirect Cost

  Institution

Name
University of California San Francisco
Department
Surgery
Type
Schools of Medicine
DUNS #
073133571
City
San Francisco
State
CA
Country
United States
Zip Code
94143

  Publications

Andrassy, Joachim; Kusaka, Satoshi; Jankowska-Gan, Ewa et al. (2003) Tolerance to noninherited maternal MHC antigens in mice. J Immunol 171:5554-61
Rolls, Hillary K; Kishimoto, Koji; Dong, Victor M et al. (2002) T-cell response to cardiac myosin persists in the absence of an alloimmune response in recipients with chronic cardiac allograft rejection. Transplantation 74:1053-7
Fedoseyeva, Eugenia V; Kishimoto, Koji; Rolls, Hillary K et al. (2002) Modulation of tissue-specific immune response to cardiac myosin can prolong survival of allogeneic heart transplants. J Immunol 169:1168-74
Boisgerault, F; Anosova, N G; Tam, R C et al. (2000) Induction of T-cell response to cryptic MHC determinants during allograft rejection. Hum Immunol 61:1352-62
Benichou, G; Valujskikh, A; Heeger, P S (1999) Contributions of direct and indirect T cell alloreactivity during allograft rejection in mice. J Immunol 162:352-8
Benichou, G (1999) Direct and indirect antigen recognition: the pathways to allograft immune rejection. Front Biosci 4:D476-80
Fedoseyeva, E V; Zhang, F; Orr, P L et al. (1999) De novo autoimmunity to cardiac myosin after heart transplantation and its contribution to the rejection process. J Immunol 162:6836-42
Soares, L R; Orr, P L; Garovoy, M R et al. (1998) Differential activation of T cells by natural antigen peptide analogues: influence on autoimmune and alloimmune in vivo T cell responses. J Immunol 160:4768-75
Benichou, G; Malloy, K M; Tam, R C et al. (1998) The presentation of self and allogeneic MHC peptides to T lymphocytes. Hum Immunol 59:540-8
Tam, R C; Fedoseyeva, E V; Moskalenko, M et al. (1996) T cell tolerance is influenced by concomitant T cell recognition of cross-reactive self-peptides. J Immunol 156:3765-71

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