Absolute Side-chain Structure at Position 13 Is Required for the Inhibitory Activity of Bromein

Bromelain isoinhibitor (bromein), a cysteine proteinase inhibitor from pineapple stem, has a unique double-chain structure. The bromein precursor protein includes three homologous inhibitor domains, each containing an interchain peptide between the light and heavy chains. The interchain peptide in the single-chain precursor is immediately processed by bromelain, a target proteinase. In the present study, to clarify the essential inhibitory site of bromein, we constructed 44 kinds of site-directed and deletion mutants and investigated the inhibitory activity of each toward bromelain. As a result, the complete chemical structure of Leu(13) in the light chain was revealed to be essential for inhibition. Pro(12) prior to the leucine residue was also involved in the inhibitory activity and would control the location of the leucine side chain by the fixed phi dihedral angle of proline. Furthermore, the five-residue length of the interchain peptide was strictly required for the inhibitory activity. On the other hand, no inhibitory activity against bromelain was observed by the substitution of proline for the N terminus residue Thr(15) of the interchain peptide. In summary, these mutational analyses of bromein demonstrated that the appropriate position and conformation of Leu(13) are absolutely crucial for bromelain inhibition.