FOLDING OF SUBTILISIN BPN' - ROLE OF THE PRO-SEQUENCE

Subtilisin BPN' is an extracellular serine protease from Bacillus amyloliquefaciens that requires an N-terminal 77 amino acid pro-sequence for correct folding of the catalytic domain. We have expressed an inactive, stable pro-subtilisin variant in Escherichia coli and show that it has structural properties similar to native subtilisin in terms of its near- and far-UV circular dichroism spectra, its compactness, and its capacity to bind calcium ions stoichiometrically. Unlike subtilisin, the pro-subtilisin variant unfolds reversibly with guanidinium chloride, and unfolding occurs via a folding intermediate. This intermediate is similar to the metastable intermediate state recently found for folding of subtilisin in the absence of the pro-sequence. The intermediate state has native-like secondary but little tertiary structure, and has a compactness between that of the native and unfolded state. Pro-subtilisin folds from the intermediate to the folded state in a single co-operative transition mediated by the pro-sequence. The isolated pro-sequence does not appear from its circular dichroism and 1H-NMR spectrum to have enough intrinsic stabilizing interactions to fold autonomously. However, the difference circular dichroism spectra of the prosubtilisin variant and native subtilisin suggest that it is folded in the context of the prosubtilisin molecule. The inability of the pro-subtilisin variant to bind a polypeptide inhibitor supports further the hypothesis that the pro-sequence interacts with subtilisin in the region where the active site is exposed. Our results suggest that the interactions provided by the pro-sequence are important only late on the folding pathway of pro-subtilisin and stabilize the transition state for folding. Kinetic analysis of the refolding reaction in the presence and absence of the pro-sequence reveal this stabilization to be in excess of 7.5 kcal/mol; folding is accelerated more than five orders of magnitude. © 1993 Academic Press Limited.