(LEW X BN)F1 cardiac allografts are rejected within 8 days in unmodified LEW rats. ART18, a mouse anti-rat IgG1 monoclonal antibody which binds specifically in vitro to the interleukin 2 receptor (IL 2R) molecule expressed primarily on activated T cells, prolongs allograft survival in a dose-dependent fashion to ca. 3 weeks (p less than 0.001) after being administered for 10 days after transplantation. This effect was related to the specificity of the antibody for IL 2R, as therapy with ART62 (a monoclonal antibody recognizing MHC class I antigen but not binding the rat IL 2R) was ineffectual. Suppressor activity was detected in spleen cells of ART18-treated grafted hosts: in vivo, splenic T suppressor/cytotoxic fraction adoptively transferred into normal LEW improved donor-specific but not third-party test graft survival (17 days, vs. 8 days, respectively, p less than 0.001); in vitro, mixed lymphocyte reaction was profoundly but nonspecifically inhibited (less than 5% of test mixed lymphocyte reaction, p less than 0.001 as compared to acutely rejecting controls). In contrast, splenic T helper (Th) cells from ART18-treated hosts were functionally depressed, as noted by their passive transfer into immunologically anergic B recipients of cardiac allografts (rejection in ca. 40 days, vs. ca. 13 days after transfer of Th from specifically sensitized rats). ART18 treatment also resulted in diminished elaboration of IL 2 as compared to normal (p less than 0.005) or acutely rejecting hosts (p less than 0.001); however, a remarkable increase in the production of IL 3 occurred (p less than 0.001). These results demonstrate that IL 2R-targeted therapy of immunocompetent graft recipients produces a selective immune defect in which donor-specific T suppressor cells are spared, but Th cells attenuated or destroyed. Decreased elaboration of IL2 concomitantly augments the release of IL 3, a lymphokine which might play a role in suppressor effect in vivo. In addition, IL 2R-targeted therapy of the immunodeficient graft recipients abrogates the capacity of alloactivated T cells to re-establish acute immune responsiveness.
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