ABSTRACT
The incorporation of ß-amino acids into a peptide sequence has gained particular attention as ß- and α/ß-peptides have shown remarkable proteolytic stability, even after a single homologation at the scissile bond. Several peptidases have been shown to cleave such bonds with high specificity but at a much slower rate compared to α-peptide bonds. In this study, a series of analogs of dipeptidyl peptidase-4 (DPP-4) substrate inhibitors were synthesized in order to investigate whether ß-amino acid homologation at the scissile bond could be a valid approach to improving peptide stability towards DPP-4 degradation. DPP-4 cleaved the α/ß-peptide bond after the N-terminal penultimate Pro with a broad specificity and retained full activity regardless of the ß3 -amino acid side chain and peptide length. Significantly improved half-lives were observed for ß3 Ile-containing peptides. Replacing the penultimate Pro with a conformationally constrained Pro mimetic led to proteolytic resistance. DPP-4 cleavage of α/ß-peptide bonds with a broad promiscuity represents a new insight into the stability of peptide analogs containing ß-amino acids as such analogs were thought to be stable towards enzymatic degradation.
