Aromatic side-chain interactions as the origin of immunological diversity in the TyrTyrGluGlu and TyrGluTyrGlu epitopes: NMR and fluorescence evidence

Abstract

Spectroscopic methods have been applied to elucidate conformational differences responsible for the immunological diversity of two synthetic multichain copolymers, Tyr¹Tyr²Glu³Glu⁴-poly-DL-Ala—poly-Lys and Tyr¹Glu²Tyr³Glu⁴-poly-DL-Ala—poly-Lys. Despite their far-reaching structural similarity in the epltope peptide and complete identity in the poly-Ala—poly-Lys carrier, these two copolymers manifest a wide range of opposed immunological attributes. Different genetic control mechanisms govern their immunogenic properties, and their interactions with antigen presenting cells or T cells and B cells are mediated via different immunological routes. Following previous photoCIDNP (photoChemically Induced Dynamic Nuclear Polarization) investigations, we applied NMR and fluorescence measurements to these two copolymers in order to search for structural differences that could account for their opposed immunological behaviour. The differences between the two antigens are traced to the spatial orientation of the tyrosine residues. Hydrophobic Tyr¹—Tyr³ intramolecular inter-slde-chain interactions characterize the Tyr¹Glu²Tyr³Glu⁴ polymer, whereas Tyr¹ and Tyr² in the Tyr¹Tyr²Glu³Glu⁴ polymer are non-interacting and freely rotating. It is thus inferred that Tyr¹ and Tyr² are distant and point to different directions in space, whereas Tyr¹ and Tyr³ are in close proximity, as was suggested by a previous CIDNP study and by molecular structure computations. We infer that these structural differences may relate to the different immunological behaviour of the TyrTyrGluGlu and TyrGluTyrGlu polymers.