Mechanism of action of Cyclosporin A: inhibition of lymphokine secretion studied with antigen-stimulated T cell hybridomas.

Abstract

We have employed bifunctional T cell hybridomas, which can be stimulated to secrete lymphokine(s) and lyse specific target cells, to analyze the effect of Cyclosporin A (CsA) on T cell helper and effector functions. We report here the effects of CsA on antigen- and lectin-induced lymphokine secretion. We have found that a pharmacologic level of CsA (10 ng/ml) blocks antigen- and lectin-driven interleukin 2 (IL 2) secretion without affecting cell proliferation. In addition, one monoclonal hybridoma that is induced by concanavalin A to secrete colony stimulating factors (CSF) as well as IL 2 is concomitantly blocked by CsA for production of IL 2 and CSF. Because the hybridomas grow constitutively and are devoid of functional IL 2 receptors, they permit analysis of the kinetics of the inhibitory response. We have shown that CsA blocks not only stimulation of lymphokine secretion but also ongoing IL 2 production, probably by interfering with the effective interaction of receptor and antigen. Thus, blocking of IL 2 secretion from preactivated cells by CsA occurs by 1 to 2 hr, the time required to stop IL 2 production by removal of Ag/Lectin stimulator. The results are consistent with a mechanism of action of CsA on T cells that involves a direct interference of CsA with binding of Ag to Ag-receptor and results in blocking of induction and active secretion of multiple lymphokines.