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Merck

A multifaceted cellular damage repair and prevention pathway promotes high-level tolerance to β-lactam antibiotics.

EMBO reports (2021-01-20)
Jung-Ho Shin, Donghui Choe, Brett Ransegnola, Hye-Rim Hong, Ikenna Onyekwere, Trevor Cross, Qiaojuan Shi, Byung-Kwan Cho, Lars F Westblade, Ilana L Brito, Tobias Dörr
RÉSUMÉ

Bactericidal antibiotics are powerful agents due to their ability to convert essential bacterial functions into lethal processes. However, many important bacterial pathogens are remarkably tolerant against bactericidal antibiotics due to inducible damage repair responses. The cell wall damage response two-component system VxrAB of the gastrointestinal pathogen Vibrio cholerae promotes high-level β-lactam tolerance and controls a gene network encoding highly diverse functions, including negative control over multiple iron uptake systems. How this system contributes to tolerance is poorly understood. Here, we show that β-lactam antibiotics cause an increase in intracellular free iron levels and collateral oxidative damage, which is exacerbated in the ∆vxrAB mutant. Mutating major iron uptake systems dramatically increases ∆vxrAB tolerance to β-lactams. We propose that VxrAB reduces antibiotic-induced toxic iron and concomitant metabolic perturbations by downregulating iron uptake transporters and show that iron sequestration enhances tolerance against β-lactam therapy in a mouse model of cholera infection. Our results suggest that a microorganism's ability to counteract diverse antibiotic-induced stresses promotes high-level antibiotic tolerance and highlights the complex secondary responses elicited by antibiotics.

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Sigma-Aldrich
Catalase from bovine liver, lyophilized powder, 2,000-5,000 units/mg protein
Sigma-Aldrich
Kit de détection de l′oxydation des protéines OxyBlot, The OxyBlot Protein Oxidation Detection Kit provides the reagents to perform the immunoblot detection of carbonyl groups introduced into proteins by oxidative reactions with ozone or oxides of nitrogen or by metal catalyzed oxidation.
Sigma-Aldrich
β-Lactamase from Enterobacter cloacae, Type IV, lyophilized powder, 0.2-0.6 units/mg protein (using benzylpenicillin)