Point mutations in the ygiV promoter region lead to cystobactamid resistance and reduced virulence in E. coli

Müller, Rolf; Risch, Timo; Kolling, Dominik; Mostert, Dietrich; Seedorf, Tim; Heimann, Dominik; Kohnhäuser, Daniel; Deschner, Felix; Fries, Franziska; Solga, Danny; Hilgers, Jil-Sophie; Dastbaz, Jan; Hirsch, Anna; Brönstrup, Mark; Kirschning, Andreas; Herrmann, Jennifer; Sieber, Stephan

doi:10.21203/rs.3.rs-3751821/v1

2024

DOI: 10.21203/rs.3.rs-3751821/v1

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Point mutations in the ygiV promoter region lead to cystobactamid resistance and reduced virulence in E. coli

Rolf Müller,

Timo Risch,

Dominik Kolling

et al.

Abstract: Antimicrobial resistance is one of the major health threats of the modern world. Thus, new structural classes of antimicrobial compounds are needed in order to overcome existing resistance. Cystobactamids as such a new compound class inhibit the well-established target bacterial type II topoisomerases while exhibiting superior antibacterial and resistance-breaking properties. Understanding potential mechanisms of emerging resistances is crucial in the development of novel antibiotics as they directly impact th… Show more

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Cystobactamid off-target profiling reveals favorable safety, superoxide reduction, and SCARB1 inhibition in eukaryotes

Risch,

Hellwinkel,

Mostert

et al. 2024

Preprint

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Antimicrobial resistance (AMR) is escalating globally at an alarming rate, posing a severe threat to public health and modern medicine. A substantial strategy to combat AMR and ensure safe and efficient antimicrobial therapies in the future is the development of antimicrobial agents based on novel scaffolds exerting an innovative mode of action. The antibacterial class of cystobactamids, natural products targeting the bacterial gyrase and topoisomerase IV, have such a novel scaffold, and their synthetic derivatives exhibit broad-spectrum antibiotic activity. Herein, as part of our de-risking strategy, we set out to study and characterize potential biological effects on eukaryotic cells. A comprehensive toxicological in vitro profiling focusing on general cytotoxicity, genotoxicity and mitochondrial toxicity is provided along with in vivo experiments to characterize potential developmental, cardio- and hepatotoxicity in zebrafish embryos. Results from these investigations support good safety and a presumably high therapeutic index of cystobactamids, even suggesting potential protective properties against oxidative cell stress. Furthermore, in vitro metabolism studies unveiled glucuronidation and amide bond hydrolysis as the main pathways of biotransformation in hepatocytes. Metabolic stability of cystobactamids was substantially improved by co-treatment with the CYP3A/OATP1B inhibitor cobicistat. In addition, eukaryotic off-targets of cystobactamids were studied on the molecular level employing affinity-based protein profiling and revealing scavenger receptor class B member 1 (SCARB1) as primary eukaryotic target protein. Indeed, functional inhibition of SCARB1 by cystobactamids was shown and effectively prevented hepatitis C virus pseudoparticles (HCVpp) from cell entry, thus confirming SCARB1 inhibition as novel target of the class.

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Cystobactamid off-target profiling reveals favorable safety, superoxide reduction, and SCARB1 inhibition in eukaryotes

Risch,

Hellwinkel,

Mostert

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

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Point mutations in the ygiV promoter region lead to cystobactamid resistance and reduced virulence in E. coli

Cited by 1 publication

References 27 publications

Cystobactamid off-target profiling reveals favorable safety, superoxide reduction, and SCARB1 inhibition in eukaryotes

Cystobactamid off-target profiling reveals favorable safety, superoxide reduction, and SCARB1 inhibition in eukaryotes

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