Specific elimination of alloreactive T cells by an anti-interleukin-2 receptor B chain-specific immunotoxin.

Graft-versus-host disease and graft rejection remain the two principal causes of morbidity and mortality after major-histocompatibility-complex-mismatched bone marrow transplantation. Human and animal models suggest that both CD4+ and CD8+ T cell subsets present in the donor inoculum are responsible for their initiation. Since the human mixed lymphocyte culture (MLC) and the HLA-restricted cytotoxicity may reflect cellular interactions occurring during GVHD and graft rejection, inhibitions of these responses may represent useful approaches for screening functional T cell depletion in experimental bone marrow transplantation studies. For this purpose, we have tested the possibility of removing the host-specific allogeneic T cells present in the marrow. After a two-day MLC, the specifically activated host alloreactive blood or bone marrow T cells were incubated with the ricin A-chain toxin conjugated with the antibody 33B3.1 directed against the human receptor of interleukin 2 (33B3.1-IT). A complete inhibition of a primary MLC and of cytotoxic activities was observed as well as a disappearance of IL-2R(+) (p55) T cells. This method had limited consequence upon the alloreactivity of blood or marrow T cells toward a third unrelated party. The limiting-dilution analysis of residual alloantigen-reactive T lymphocytes has shown that this depletion results in a twentyfold to fiftyfold reduction of antihost reactivity. The procedure was also shown not to inhibit the growth of marrow precursors for granulocytes and macrophages.