Enhancement of the mixed lymphocyte response in the mouse by addition of thymocytes

Abstract

Synthesis of DNA by mixtures of mouse lymph node and thymic cells was studied in vitro using mitomycin-treated allogeneic spleen cells as stimulator cells. The tests were performed to see whether there occurs a similar cell synergy during this reaction as has been reported during the in vivo graft-vs-host response. It was observed that mixtures of thymocytes and lymph node cells give higher incorporations of isotope-labelled thymidine than can be explained by a pure additive effect of the two cell populations tested separately. This enhancement of the reactivity was more pronounced using combinations of lymph node cells and medullary thymocytes obtained from cortisone-treated donors. Enhancement was also noted between lymph node cells and spleen cells. Blocking of the capacity of lymph node cells to synthesize DNA by treatment with mitomycin abolished this enhanced activity when mixed with thymic cells. On the contrary, mitomycin treatment of thymocytes did not abolish their capacity to increase the reactivity when mixed with normal lymph node cells. Thymocytes, which were unresponsive to the mitomycin-treated cells for genetic reasons, were also found to increase DNA synthesis when combined with lymph node cells. The mechanism by which thymocytes increase DNA synthesis of lymph node cells is not clear, but the results show that they have to be present during the reaction, since culture medium “conditioned” by thymocytes did not exhibit any enhanced capacity to promote a mixed lymphocyte reaction of lymph node cells. The results are thus in agreement with the findings obtained by others showing that mixtures of lymph node cells and thymic cells yield higher immunological reactivities in vivo against foreign transplantation, antigens than can be explained by a pure additive effect of the reactivities by the two cell populations tested separately. However, in contrast to these findings, the thymic cells do not have to be able to synthesize DNA or to react against the foreign cells in vitro to yield an enhanced response when mixed with lymph node cells.