Macrocyclization improves the pharmaceutical properties of peptides; however, regio- and chemoselective intramolecular cyclizations remain challenging. Here we developed a streamlined chemoenzymatic approach to synthesize cyclic peptides by exploiting non-ribosomal peptide… Click to show full abstract
Macrocyclization improves the pharmaceutical properties of peptides; however, regio- and chemoselective intramolecular cyclizations remain challenging. Here we developed a streamlined chemoenzymatic approach to synthesize cyclic peptides by exploiting non-ribosomal peptide (NRP) cyclases. Linear peptides linked to the resin through a C-terminal diol ester functionality are synthesized on a solid support, to circumvent the installation of leaving groups to the peptidic substrates in the liquid phase which often triggers undesirable epimerization. Cleavage of the resin-bound peptides yielded the diol esters with sufficient purity to be readily cyclized in a head-to-tail manner by SurE, a representative penicillin-binding protein-type thioesterase (PBP-type TE). Explorations of homologous wild-type enzymes as well as rational protein engineering have broadened the scope of the enzymatic macrolactamization. This method will potentially accelerate the exploitation of NRP cyclases as biocatalysts.
               
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