ABSTRACT
The process of antibody formation to self-red blood cells (RBC) has been studied in rat RBC (rRBC)-immunized mice. A positive correlation was noted between antibody production to mouse RBC (mRBC) and rRBC in some mouse strains. The low responsiveness on both indices was overcome by s.c. injections of rRBC in low doses. rRBC-tolerant mice exhibited lower levels of antibody production to mRBC. Splenocytes from rRBC-immunized donors, when transferred to irradiated recipients, revealed enhanced and accelerated anti-mRBC and anti-rRBC antibody production in response to rRBC but not to autologous mRBC. Consequently, the autoimmune process is not accompanied by disordered immunologic tolerance to self-RBC and requires participation of Th responding to foreign epitopes of rRBC antigens. Splenocytes from rRBC-immunized donors, when transferred to non-irradiated recipients, inhibited antibody production to mRBC. The suppressive effect was not abrogated by pretreating donors or recipients with low doses of cyclophosphamide (CP) or by pretreating donors with antibodies to I-J. It was abrogated by the elimination of cells of donor origin within 8-9 days after transfer. Inoculation of antibodies to rRBC in immunized mice on a schedule imitating their splenocyte transfer dynamics inhibited antibody production to mRBC. Therefore, it can be assumed that the suppressive effect of cell transfer is accounted for, not by suppressors or their inducers, but by antibodies to rRBC on the basis of feedback regulation.
