Production of synergistic but nonidentical mechanisms of immunosuppression by rapamycin and cyclosporine.

We report that the mechanism of rapamycin (RAP) inhibition is synergistic, but nonidentical, to the mechanism of CsA inhibition. Like CsA, RAP inhibits T cell proliferation following mitogen (PHA) and/or alloantigen (MLR) stimulation. RAP levels of 100, 33, 11, 3.6, 1.2, and less than 1 ng/ml reduced PHA stimulation by 81%, 84%, 81%, 83%, 62%, and 33%, respectively, without cytotoxicity. The RAP concentration required to achieve 50% proliferative inhibition of either mitogen (PHA) or MLR assays revealed an interindividual variability of 5 pg/ml RAP (2 individuals), 1 ng/ml (3 individuals), and 100 ng/ml (2 individuals). Unlike CsA, RAP proliferative inhibition was not restricted to the G0 phase of the cell cycle. Addition of 100, 10, or 1 ng/ml RAP at the onset (G0), or 24 hr following cultivation (G1) similarly inhibited DNA synthesis by 42%, 42%, and 41% compared with 44%, 48%, and 47%, respectively. PWM-stimulated B cell proliferation was primarily RAP-sensitive during the G0 phase of the cell cycle. RAP at 100, 10, and 1 ng/ml inhibited B cell proliferation 46%, 51%, and 50% when added during G0 but only 15%, 20%, and 20% when added during G1. Generation of a cyclosporine-sensitive cytoplasmic activation signal, activator of DNA replication (ADR), was reduced by RAP. RAP reduction did not correlate directly with T cell proliferative inhibition (as does CsA). RAP-induced proliferative inhibition of 40% and 80% resulted in ADR inhibition of 16% and 33%. Proliferative inhibition was synergistically increased when CsA and RAP were used in combination, whereas ADR inhibition was only additively enhanced. Mechanistic disparity between RAP and CsA may potentiate clinical immunosuppression when RAP and CsA are used together.