Issue 7, 2022

De novo design of type II topoisomerase inhibitors as potential antimicrobial agents targeting a novel binding region

Abstract

By 2050, it is predicted that antimicrobial resistance will be responsible for 10 million global deaths annually, more deaths than cancer, costing the world economy $100 trillion. Clearly, strategies to address this problem are essential as bacterial evolution is rendering our current antibiotics ineffective. The discovery of an allosteric binding site on the established antibacterial target DNA gyrase offers a new medicinal chemistry strategy. As this site is distinct from the fluoroquinolone binding site, resistance is not yet documented. Using in silico molecular design methods, we have designed and synthesised a novel series of biphenyl-based inhibitors inspired by a published thiophene-based allosteric inhibitor. This series was evaluated in vitro against Escherichia coli DNA gyrase and E. coli topoisomerase IV with the most potent compounds exhibiting IC50 values towards the low micromolar range for DNA gyrase and only ∼2-fold less active against topoisomerase IV. The structure–activity relationships reported herein suggest insights to further exploit this allosteric site, offering a pathway to overcome developing fluoroquinolone resistance.

Graphical abstract: De novo design of type II topoisomerase inhibitors as potential antimicrobial agents targeting a novel binding region

Supplementary files

Article information

Article type
Research Article
Submitted
16 Feb 2022
Accepted
30 May 2022
First published
16 Jun 2022
This article is Open Access
Creative Commons BY license

RSC Med. Chem., 2022,13, 831-839

De novo design of type II topoisomerase inhibitors as potential antimicrobial agents targeting a novel binding region

K. M. Orritt, L. Feng, J. F. Newell, J. N. Sutton, S. Grossman, T. Germe, L. R. Abbott, H. L. Jackson, B. K. L. Bury, A. Maxwell, M. J. McPhillie and C. W. G. Fishwick, RSC Med. Chem., 2022, 13, 831 DOI: 10.1039/D2MD00049K

This article is licensed under a Creative Commons Attribution 3.0 Unported Licence. You can use material from this article in other publications without requesting further permissions from the RSC, provided that the correct acknowledgement is given.

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