INVERSE CORRELATION OF CYCLOSPORINE BINDING WITH SENSITIVITY AND RESISTANCE1

Abstract

The primary effects of CsA on human lymphocyte responses in vitro appear to be the inhibition of IL-2 production and the inhibition of cytotoxic T cell activation. Induction of suppressor T cell activity is resistant to the effects of CsA. These data imply two distinct subsets of lymphocytes: CsA-resistant and CsA-sensitive. The current studies used a bioactive, dansylated derivative of CsA (dans-CsA), which is fluorescent, to assess binding of CsA at the single-cell level by flow cytometry. The results demonstrate that two populations of cells can be distinguished based on differential staining with dans CsA—a weakly staining subset and a population that binds intensely. Both subsets consist of CD4 (helper) and CD8 (cytotoxic/suppressor) T lymphocytes. Functional analysis revealed that the weakly staining subset consists of IL-2-producing T cells and precursor cytotoxic T lymphocytes. On the other hand, the intensely staining subset includes T cells that suppress in an antigen-specific manner after activation with alloantigen. Further studies showed that the weakly staining subset is markedly sensitive to the immunosuppressive effects of CsA in a PHA stimulation assay, while the intensely binding population is markedly resistant, requiring 10- to 100-fold more CsA to inhibit the PHA response. These studies suggest that sensitivity and resistance to CsA is inversely correlated with binding.