Effects of cyclosporin A on IL-2 production and lymphocyte proliferation during infection of mice with lymphocytic choriomeningitis virus.

The immunosuppressive agent, cyclosporin A (CsA) blocks production of IL-2 by lymphocytes in vitro, and impairs immune responses in vivo. During infection of mice with lymphocytic choriomeningitis virus (LCMV), IL-2 is produced by spleen lymphocytes with a time course corresponding to that of T cell activation and proliferation, but distinct from NK cell activation and proliferation. To evaluate the requirement for IL-2 in supporting lymphocyte proliferation in vivo, and to investigate the mechanisms of CsA-induced immunosuppression, the effects of CsA on LCMV-elicited responses were examined. CsA had profound effects on lymphocyte expansion and CTL activation on day 7 postinfection, the peak of the T cell response to LCMV. Proliferation of both the CD4+ and CD8+ T cell subsets was affected. Inhibition of T cell expansion was accompanied by the inhibition of IL-2 production and IL-2 responsiveness. In situ hybridization revealed a 50% reduction in the percentage of cells transcribing IL-2, suggesting that CsA blocked IL-2 production at the level of gene transcription. Transcripts of the gene for the IL-2R p55 chain are also normally elevated during infection, and CsA treatment resulted in an 80% reduction in the percentage of cells transcribing this gene. A reduced responsiveness of freshly isolated cells to rIL-2 in vitro correlated with the reduction of IL-2 receptor gene transcription positive cells. In contrast to effects of the drug on T cells, the level of NK cell activation was not decreased as a result of CsA treatment. These observations suggest that the IL-2 produced by lymphocytes in vivo in response to virus infection is required to promote the T cell response to LCMV, but do not support a role for IL-2 in NK cell activation under the conditions examined. Furthermore, the data demonstrate the profound inhibition of lymphocyte proliferation induced by CsA treatment during an in vivo immune response.