Issue 24, 2022

Facile and selective N-alkylation of gentamicin antibiotics via chemoenzymatic synthesis

Abstract

The rise and spread of antimicrobial resistance has necessitated the development of novel antimicrobials which are effective against drug resistant pathogens. Aminoglycoside antibiotics (AGAs) remain one of our most effective classes of bactericidal drugs. However, they are challenging molecules to selectively modify by chemical synthesis, requiring the use of extensive protection and deprotection steps leading to long, atom- and step-inefficient synthetic routes. Biocatalytic and chemoenzymatic approaches for the generation of AGA derivatives are of interest as they allow access to more concise and sustainable synthetic routes to novel compounds. This work presents a two-step chemoenzymatic route to regioselectively modify the C-6′ position of AGAs. The approach uses a transaminase enzyme to generate an aldehyde on the C-6′ position in the absence of protecting groups, followed by reductive amination to introduce substituents selectively on this position. Seven candidate transaminases were tested for their ability to deaminate a panel of commercially available AGAs. The C-6′ transaminases could deaminate both pseudo di- and trisaccharide AGAs and tolerate the presence or absence of hydroxyl groups on the C-3′- and C-4′-positions. Additionally, sugar substituents on the C-6 hydroxyl were accepted but not on the C-5 hydroxyl. The most promising enzyme, GenB4, was then coupled with a reductive amination step to synthesise eleven novel 6′-gentamicin C1a analogues with conversions of 13–90%. Five of these compounds were active antimicrobials and four of these retained activity against an aminoglycoside-resistant Escherichia coli. This approach allows facile and step-efficient access to novel aminoglycoside compounds under mild reaction conditions and could potentially enable the development of greener, sustainable, and more cost-effective syntheses of novel AGAs.

Graphical abstract: Facile and selective N-alkylation of gentamicin antibiotics via chemoenzymatic synthesis

Supplementary files

Article information

Article type
Paper
Submitted
23 Sep 2022
Accepted
14 Nov 2022
First published
17 Nov 2022
This article is Open Access
Creative Commons BY license

Green Chem., 2022,24, 9542-9551

Facile and selective N-alkylation of gentamicin antibiotics via chemoenzymatic synthesis

G. Stojanovski, H. C. Hailes and J. M. Ward, Green Chem., 2022, 24, 9542 DOI: 10.1039/D2GC03600B

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