Transplantation of tail skin to study allogeneic CD4 T cell responses in mice.

Abstract

The study of T cell responses and their consequences during allo-antigen recognition requires a model that enables one to distinguish between donor and host T cells, to easily monitor the graft, and to adapt the system in order to answer different immunological questions. Medawar and colleagues established allogeneic tail-skin transplantation in mice in 1955. Since then, the skin transplantation model has been continuously modified and adapted to answer specific questions. The use of tail-skin renders this model easy to score for graft rejection, requires neither extensive preparation nor deep anesthesia, is applicable to animals of all genetic background, discourages ischemic necrosis, and permits chemical and biological intervention. In general, both CD4(+) and CD8(+) allogeneic T cells are responsible for the rejection of allografts since they recognize mismatched major histocompatibility antigens from different mouse strains. Several models have been described for activating allogeneic T cells in skin-transplanted mice. The identification of major histocompatibility complex (MHC) class I and II molecules in different mouse strains including C57BL/6 mice was an important step toward understanding and studying T cell-mediated alloresponses. In the tail-skin transplantation model described here, a three-point mutation (I-A(bm12)) in the antigen-presenting groove of the MHC-class II (I-A(b)) molecule is sufficient to induce strong allogeneic CD4(+) T cell activation in C57BL/6 mice. Skin grafts from I-A(bm12) mice on C57BL/6 mice are rejected within 12-15 days, while syngeneic grafts are accepted for up to 100 days. The absence of T cells (CD3(-/-) and Rag2(-/-) mice) allows skin graft acceptance up to 100 days, which can be overcome by transferring 2 x 10(4) wild type or transgenic T cells. Adoptively transferred T cells proliferate and produce IFN-γ in I-A(bm12)-transplanted Rag2(-/-) mice.