Characterization of genomic sequence coding for bromelain inhibitors in pineapple and expression of its recombinant isoform

Abstract

Bromelain inhibitor (BI) is a cysteine proteinase inhibitor isolated from pineapple stem (Reddy, M. N., Keim, P. S., Heinrikson, R. L., and Kézdy, F. J. (1975) J. Biol. Chem. 250, 1741-1750). It consists of eight isoinhibitors, and each isoinhibitor has a two-chain structure. In this study, the genomic DNA has been cloned and found to encode a precursor protein with 246 amino acids (Mr = ∼27,500) containing three isoinhibitor domains (BI-III, -VI, and -VII) that are 93% identical to one another in amino acid sequences. The gene structure indicated that these isoinhibitors are produced by removal of the N-terminal pre-peptide (19 residues), 3 interchain peptides (each 5 residues), 2 interdomain peptides (each 19 residues), and the C-terminal pro-peptide (18 residues). Moreover, all the amino acid sequences of bromelain isoinhibitors could be explained by removal of one or two amino acids from BI-III, -VI, and -VII with exopeptidases. A recombinant single-chain BI-VI with and without the interchain peptide showed the same and no bromelain inhibitory activity as compared with the native BI-VI, respectively. These results indicate that the interchain peptide plays an important role of the folding process of the mature isoinhibitors.