Identification of the dimerisation interface of human interleukin-8 by IL-8-variants containing the photoactivatable amino acid benzoyl-phenylalanine.

The three-dimensional structure of human interleukin-8 (hIL-8) was determined by the use of NMR and X-ray methodology. At high concentrations interleukin-8 and many other chemokines form a non-covalent homodimer. Several studies have been performed to investigate the relevance of the dimer on receptor activation and led to contradictory results. In order to obtain a better understanding of the dimerisation process, covalently linked homo- and heterodimers were produced by photo-induced dimerisation of hIL-8 analogues that contain the photo-activatable amino acid p-benzoyl-phenylalanine (Bpa) at different positions. Whereas the N-terminal fragment (1-54) was expressed as recombinant thioester, the C-terminal fragments (55-77) that contain Bpa either at position 65 or 74 were obtained by solid-phase peptide synthesis. The segments were combined by expressed protein ligation and led to full length IL-8 variants containing the non-proteinogenic amino acid Bpa at single positions. IP(3) activity tests showed high biological activity for the CXCR1-GFP receptor for both variants comparable to that of the native ligand. The refolded and purified ligation-products were used for dimer formation by UV-irradiation. The analysis of the reaction mixture was performed by gel-electrophoresis and mass spectrometry and showed that dimer formation of IL-8 occurred in a position dependent manner. [Bpa(74)]hIL-8 has a high tendency to form covalent dimers whereas no dimer formation was observed for the variant with Bpa at position 65. Accordingly one residue of the dimerisation interface could be identified.