Cyclosporine therapy of rat heart allograft recipients and release of interleukins (IL 1, IL 2, IL 3): a role for IL 3 in graft tolerance?

LEW rat recipients of (LEW X BN)F1 strain heterotopic cardiac transplants treated with cyclosporine A (CsA) (15 mg/kg/day intramuscularly, 7 days) retain grafts indefinitely despite drug withdrawal. Donor-specific suppressor T cells that are active in passive transfer experiments have been harvested from long-term CsA-treated hosts. Although CsA is known to inhibit in vitro cytokine release, the in vivo effects of the CsA on the lymphokine cascade are not known. We investigated the action of the drug upon spontaneous and mitogen-induced interleukin 1 (IL 1), interleukin 2 (IL 2), and interleukin 3 (IL 3) release by spleen cells obtained from the following groups of rats: 1) normal, i.e., untreated and ungrafted; 2) grafted, acutely rejecting; 3) grafted, actively treated; and 4) under CsA-induced state of "tolerance." The results demonstrate that in vivo CsA therapy inhibits monocyte (IL 1 release) as well as lymphocyte function (IL 2 and IL 3 release) only during the inductive phase (the 7 days of treatment). During the "tolerant" phase, mitogen (Con A and LPS)-induced release of interleukins was quantitatively similar to that noted in normal animals. In contrast, a remarkable increase in the spontaneous production of IL 3 was observed in the "tolerant" group. Because cytokine release is not inhibited in the "tolerant" state, our data strongly support the concept that maintenance of the state of unresponsiveness is governed by the emergence of suppressor cells. The correlation of increased spontaneous production of IL 3 during this period leads us to postulate that this interleukin may be implicated in the activation or clonal expansion of suppressor cells, and hence may play a role in graft tolerance.