Protease-catalyzed fragment condensation via substrate mimetic strategy: a useful combination of solid-phase peptide synthesis with enzymatic methods.

Abstract

The concept of substrate mimetic strategy represents a new powerful method in the field of enzymatic peptide synthesis. This strategy takes advantage of the shift in the site-specific amino acid moiety from the acyl residue to the ester-leaving group of the carboxyl component enabling acylation of the enzyme by nonspecific acyl residues. As a result, peptide bond formation occurs independently of the primary specificity of proteases. Moreover, because of the coupling of nonspecific acyl residues, the newly formed peptide bond is not subject to secondary hydrolysis achieving irreversible peptide synthesis. Here, we report the combination of solid-phase peptide synthesis with substrate mimetic-mediated enzymatic peptide fragment condensations. First, the utility of the oxime resin strategy for the synthesis of peptide fragments in the form of substrate mimetics esterified as 4-guanidinophenyl-, phenyl- and mercaptopropionic acid esters was investigated. The study was completed by using the resulting N(alpha)-protected peptide esters as acyl donors in trypsin-, alpha-chymotrypsin- and V8 protease-catalyzed fragment condensations.