Abstract

This project has two overall goals: 1] understanding the mechanism(s) of transplantation tolerance to parental strain bone marrow cell (BMC) incompatible grafts, when the major effector cell that eliminates donor stem cells is an NK cell; and 2] Developing 'clinically applicable' method(s) of inducing tolerance to incompatible BMC grafts. The research is aimed clinically at accomplishing successful bone marrow transplants without graft-versus-host disease (GVHD) even when the door is not matched perfectly at HLA (H2 in the mouse). Removal of donor marrow T cells helps ameliorates GVHD, but it increases the likelihood of rejection of the BMC graft. To accomplish these goals, we have created two specific aims, the first one aimed at goal 1] and the second aimed at goal 2].
In aim 1, we will analyze the mechanisms of tolerance induction in NK cells in murine (BALB/c X C57BL/6)F1 (cB6F1)-to BALB/c (C) radiation BMC chimeras. In the CB6F1-to-C model, the effector cells are 5E6+ NK cells. This model can be used to determine the mechanism of tolerance if 'missing self' hypothesis for NK cell mediated BMC graft rejection is correct, i.e., NK cell receptors receive negative signals from certain class I Ags. A failure to detect those class I Ags allows NK cells to kill. In contrast, the 'Hh"""""""" hypothesis suggests that NK cells use NK receptors to recognize Ags on stem cells in a positive fashion. The Ags themselves are under a peculiar regulation such that homozygosity is required for expression.
In aim 2, we will try three approaches to induce tolerance to BMC grafts that are 'clinically applicable'. The first is oral tolerance, induced by feeding donor-type BMC prior to challenge with marrow grafts; the second is induction of anterior chamber-associated immune deviation (ACAID) by injection of BMC into the anterior chamber of the eye prior to challenge with BMC; the third is us of ultraviolet light B (UVB) irradiation of antigen-presenting cells, e.g. Langerhans cells (LC) of the skin. UVB treated LC not only fail to stimulate immune responses) but actually lead to 'tolerance'. Success in this aim could benefit patients undergoing bone marrow transplants.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Program Projects (P01)
Project #
5P01AI038938-04
Application #
6100018
Study Section
Project Start
1998-09-01
Project End
1999-08-31
Budget Start
1997-10-01
Budget End
1998-09-30
Support Year
4
Fiscal Year
1998
Total Cost
Indirect Cost

  Institution

Name
University of Texas Sw Medical Center Dallas
Department
Type
DUNS #
City
Dallas
State
TX
Country
United States
Zip Code
75390

  Publications

Johansson, Maria H; Taylor, Mesha A; Jagodic, Maja et al. (2006) Mapping of quantitative trait loci determining NK cell-mediated resistance to MHC class I-deficient bone marrow grafts in perforin-deficient mice. J Immunol 177:7923-9
Gao, Ning; Dang, Tam; Dunnick, Wesley A et al. (2005) Receptors and counterreceptors involved in NK-B cell interactions. J Immunol 174:4113-9
Mooney, Jill M; Klem, Jennifer; Wulfing, Christoph et al. (2004) The murine NK receptor 2B4 (CD244) exhibits inhibitory function independent of signaling lymphocytic activation molecule-associated protein expression. J Immunol 173:3953-61
Yuan, Dorothy; Bibi, Rula; Dang, Tam (2004) The role of adjuvant on the regulatory effects of NK cells on B cell responses as revealed by a new model of NK cell deficiency. Int Immunol 16:707-16
Klem, Jennifer; Verrett, Pamela C; Kumar, Vinay et al. (2002) 2B4 is constitutively associated with linker for the activation of T cells in glycolipid-enriched microdomains: properties required for 2B4 lytic function. J Immunol 169:55-62
Taylor, Mesha Austin; Ward, Brant; Schatzle, John D et al. (2002) Perforin- and Fas-dependent mechanisms of natural killer cell-mediated rejection of incompatible bone marrow cell grafts. Eur J Immunol 32:793-9
Morris, Margaret A; Liu, Jingxuan; Arora, Veera et al. (2002) B6 strain Ly49I inhibitory gene expression on T cells in FVB.Ly49IB6 transgenic mice fails to prevent normal T cell functions. J Immunol 169:3661-6
Morris, Margaret A; Koulich, Elena; Liu, Jingxuan et al. (2002) Definition of additional functional ligands for Ly49I(B6) using FVBLy49I(B6) transgenic mice and B6 natural killer cell effectors. Transplantation 74:1449-54
Murphy, W J; Koh, C Y; Raziuddin, A et al. (2001) Immunobiology of natural killer cells and bone marrow transplantation: merging of basic and preclinical studies. Immunol Rev 181:279-89
Boles, K S; Stepp, S E; Bennett, M et al. (2001) 2B4 (CD244) and CS1: novel members of the CD2 subset of the immunoglobulin superfamily molecules expressed on natural killer cells and other leukocytes. Immunol Rev 181:234-49

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