STRAIN VARIATION IN SUSCEPTIBILITY TO MONOCLONAL ANTIBODY-INDUCED TRANSPLANTATION TOLERANCE

Background. We have reproducibly induced specific tolerance to multipl e minor histocompatibility antigens with nondepleting anti-CD4 and -CD 8 monoclonal antibodies. The tolerance induced is effective for the li fetime of the host. We have tested this therapy in a number of mouse s train combinations to further understand the mechanisms. Methods. Vari ous mouse strains were grafted with allogeneic tail skin with and with out nondepleting CD4- and CD8-specific monoclonal antibody therapy. Th e grafts were monitored daily for signs of rejection. Results. Whereas the CBA/Ca (H2(k)) strain can be made tolerant to skin grafts that ar e mismatched at multiple minor histocompatibility antigens indefinitel y, using the same protocol, long-term survival of similarly mismatched grafts on the HW80 (E6 congenic for BALB H1) mouse strain is limited to around 8 weeks. Interestingly, the B10.BR strain, which is also of the H2(k) haplotype, is also not readily tolerized. In addition, an F1 between the CBA/Ca and the resistant B10.BR strains is B10.BR-like in its susceptibility to tolerance induction. Susceptibility to such ant ibody-dependent tolerance induction is not related to immunogenicity b ecause grafts mismatched at only a single minor antigen also do not re producibly survive beyond 8 weeks when grafted onto HW80 mice in the p resence of the antibody therapy. Conclusions. The data strongly sugges t that the B6/B10 genetic background confers a level of resistance to CD4- and CD8-specific monoclonal antibody-dependent tolerance inductio n.