Rational design, synthesis and testing of novel tricyclic topoisomerase inhibitors for the treatment of bacterial infections part 1

R Kirk; A Ratcliffe; G Noonan; M Uosis-Martin; D Lyth; O Bardell-Cox; J Massam; P Schofield; S Hindley; D R Jones; J Maclean; A Smith; V Savage; S Mohmed; C Charrier; A-M Salisbury; E Moyo; R Metzger; N Chalam-Judge; J Cheung; N R Stokes; S Best; M Craighead; R Armer; A Huxley

doi:10.1039/d0md00174k

Rational design, synthesis and testing of novel tricyclic topoisomerase inhibitors for the treatment of bacterial infections part 1

RSC Med Chem. 2020 Sep 18;11(12):1366-1378. doi: 10.1039/d0md00174k. eCollection 2020 Dec 17.

Authors

R Kirk¹, A Ratcliffe¹, G Noonan¹, M Uosis-Martin¹, D Lyth¹, O Bardell-Cox¹, J Massam¹, P Schofield¹, S Hindley¹, D R Jones¹, J Maclean¹, A Smith¹, V Savage¹, S Mohmed¹, C Charrier¹, A-M Salisbury¹, E Moyo¹, R Metzger¹, N Chalam-Judge¹, J Cheung¹, N R Stokes¹, S Best¹, M Craighead¹, R Armer¹, A Huxley¹

Affiliation

¹ Redx Anti-Infectives Ltd, Alderley Park, Mereside Macclesfield SK10 4TG UK.

Abstract

The alarming reduction in drug effectiveness against bacterial infections has created an urgent need for the development of new antibacterial agents that circumvent bacterial resistance mechanisms. We report here a series of DNA gyrase and topoisomerase IV inhibitors that demonstrate potent activity against a range of Gram-positive and selected Gram-negative organisms, including clinically-relevant and drug-resistant strains. In part 1, we present a detailed structure activity relationship (SAR) analysis that led to the discovery of our previously disclosed compound, REDX05931, which has a minimum inhibitory concentration (MIC) of 0.06 μg mL^-1 against fluoroquinolone-resistant Staphylococcus aureus. Although in vitro hERG and CYP inhibition precluded further development, it validates a rational design approach to address this urgent unmet medical need and provides a scaffold for further optimisation, which is presented in part 2.