Robust Chemoenzymatic Synthesis of the Keratinimicin Aglycone Facilitated by the Structure and Selectivity of OxyB

11 April 2023, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

The emergence of multidrug-resistant pathogens poses a threat to public health and requires new antimicrobial agents. As the archetypal glycopeptide antibiotic (GPA) used against drug-resistant Gram-positive pathogens, vancomycin provides a promising starting point. Peripheral alterations to the vancomycin scaffold have enabled the development of new GPAs. However, modifying the core remains challenging due to the size and complexity of this compound family. The recent successful chemoenzymatic synthesis of vancomycin suggests that such an approach can be broadly applied. Herein, we describe the expansion of chemoenzymatic strategies to encompass type II GPAs bearing all aromatic amino acids through the production of the aglycone analogue of keratinimicin A, a GPA that is five-fold more potent than vancomycin against Clostridioides difficile. In the course of these studies, we found that the cytochrome P450 enzyme OxyBker boasts both broad substrate tolerance and remarkable selectivity in the formation of the first aryl ether crosslink on the linear peptide precursors. The X-ray crystal structure of OxyBker, determined to 2.8 Å, points to structural features that may contribute to these properties. Our results set the stage for using OxyBker broadly as a biocatalyst toward the chemoenzymatic synthesis of diverse GPA analogues.

Keywords

metalloenzyme
P450
vancomycin
structure

Supplementary materials

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