Background: Cyclosporin A (CsA) is a cyclic undecapeptide fungal metabolite with immunosuppressive properties, widely used in transplant surgery. It forms a tight complex with the ubiquitous 18 kDa cytosolic protein cyclophilin A (CypA). The conformation of CsA in this complex, as studied by NMR or X-ray crystallography, is very different from that of free CsA. Another, different conformation of CsA has been found in a complex with an antibody fragment (Fab).
Results: A detailed comparison of the conformations of experimentally determined structures of protein-bound CsA is presented. The X-ray and NMR structures of CsA-CypA complexes are similar. The Fab-bound conformation of CsA, as determined by X-ray crystallography, is significantly different from the cyclophilin-bound conformation. The protein-CsA interactions in both the Fab and CypA complexes involve five hydrogen bonds, and the buried CsA surface areas are 395 A2 and 300 A2, respectively. However, the CsA-protein interactions involve rather different side chain contacts in the two complexes.
Conclusions: The structural results presented here are consistent with CypA recognizing and binding a population of CsA molecules which are in the required CypA-binding conformation. In contrast, the X-ray structures of the Fab complex with CsA suggest that in this case there is mutual adaptation of both receptor and ligand during complex formation.