Stable isotope aided nuclear magnetic resonance study to investigate the receptor-binding site of human interleukin 1 beta.

Resonance assignments for interleukin 1 beta at neutral pH were made by using three-dimensional NMR in combination with specific labeling and double-labeling methods with stable isotopes. On the basis of the present assignments, 15N single-quantum coherence spectra of N-terminal truncated and fusion mutants were compared with that of the wild-type. Although these mutants have reduced biological activity, they showed 15N-SQC spectra similar to that of the wild-type. However, small but significant chemical shift changes were observed for amino acid residues within a loop 86-99, in spite of the modification at the N-terminus, supporting the idea that this loop forms a biologically active part of interleukin 1 beta. Receptor-binding activity was studied for mutants (Asp-93)-, (Leu-93)- and des-(Arg-98)interleukin 1 beta's. The results show significant loss of the receptor-binding activity. The N-terminus, the C-terminus, and the loop 86-99 form a part of the open end of a beta-barrel [Finzel, B. C., Clancy, L. L., Holland, D. R., Muchmore, S. W., Watenpaugh, K. D., & Einspahr, H. M. (1989) J. Mol. Biol. 209, 779-791; Clore, G. M., Wingfield, P. T., & Gronenborn, A. M. (1991) Biochemistry 30, 2315-2323], which forms the receptor-binding site of IL-1 beta.