Two cytoplasmic candidates for immunophilin action are revealed by affinity for a new cyclophilin: one in the presence and one in the absence of CsA.

We report the cloning and characterization of a new binding protein for the immunosuppressive drug cyclosporin A (CsA). This new cyclophilin, cyclophilin C (cyp C), shows extensive homology with all previously identified cyclophilins. Cyp C mRNA is expressed in a restricted subset of tissues relative to cyclophilins A and B, but is present in those tissues reported to be most affected by CsA therapy. A cyp C fusion protein has peptidyl-prolyl isomerase activity, and CsA inhibits this activity. Using the cyp C fusion protein as an affinity ligand to probe cellular extracts, we find that the cyp C fusion protein binds specifically to a 77 kd protein in the absence of CsA, while in the presence of CsA it instead binds specifically to a 55 kd protein. We propose that the p77 is involved in cyp C native function and that the p55 is involved in signal transduction events blocked by treatment with immunosuppressive levels of CsA.