Solution structure and dynamics of a serpin reactive site loop using interleukin 1 beta as a presentation scaffold

Human interleukin-1 beta (IL1 beta) was used as a presentation scaffold for the characterization of the reactive site loop (RSL) of the serpin alpha 1 -antitrypsin (A1AT), the physiological inhibitor of leukocyte elastase, A c himeric protein was generated by replacement of residues 50-53 of IL1 beta, corresponding to an exposed reverse turn in IL1 beta, with the 10-residue P5-P5' sequence EAIPMSIPPE from A1AT. The chimera (antitrypsin-interleukin, AT-IL) inhibits elastase specifically and also binds the IL1 beta receptor , Multinuclear NMR characterization of AT-IL established that, with the exc eption of the inserted sequence, the structure of the IL1 beta scaffold is preserved in the chimera. The structure of the inserted RSL was analyzed re lative to that of the isolated 10-residue RSL peptide, which was shown to b e essentially disordered in solution. The chimeric RSL was also found to be solvent exposed and conformationally mobile in comparison with the IL1 bet a scaffold, and there was no evidence of persisting interactions with the s caffold outside of the N- and C-terminal linkages. However, AT-IL exhibits significant differences in chemical shift and NOE patterns relative to the isolated RSL that are consistent with local features of non-random structur e. The proximity of these features to the P1-P1' residues suggests that the y may be responsible for the inhibitory activity of the chimera.