2014
DOI: 10.1128/aac.03683-14
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Sigma S-Dependent Antioxidant Defense Protects Stationary-Phase Escherichia coli against the Bactericidal Antibiotic Gentamicin

Abstract: Stationary-phase bacteria are important in disease. The s -regulated general stress response helps them become resistant to disinfectants, but the role of s in bacterial antibiotic resistance has not been elucidated. Loss of s rendered stationary-phase Escherichia coli more sensitive to the bactericidal antibiotic gentamicin (Gm), and proteomic analysis suggested involvement of a weakened antioxidant defense. Use of the psfiA genetic reporter, 3=-(p-hydroxyphenyl) fluorescein (HPF) dye, and Amplex Red showed t… Show more

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Cited by 28 publications
(20 citation statements)
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“…In contrast with our observations, the importance of RpoS in the response to aminoglycoside-induced stress has been demonstrated in E. coli (Wang et al, 2014). Furthermore, RpoS protects E. coli and V .…”
Section: Discussioncontrasting
confidence: 99%
“…In contrast with our observations, the importance of RpoS in the response to aminoglycoside-induced stress has been demonstrated in E. coli (Wang et al, 2014). Furthermore, RpoS protects E. coli and V .…”
Section: Discussioncontrasting
confidence: 99%
“…In contrast to other knockout mutants tested, the deletion mutant of rpoS displayed a defect in persistence to gentamicin, but a higher persistence phenotype than wild-type strain in exposure to ampicillin or norfloxacin. Our data are compatible with the previous observation ( Hong et al, 2012 ; Wang et al, 2014 ) that loss of RpoS renders stationary-phase E. coli more sensitive to gentamicin by generating more ROS to enhance oxidative stress, whereas compensatory mutations may have occurred in the RpoS mutant induced by ampicillin and norfloxacin, which led to a higher persistence phenotype. Future studies are needed to address this possibility.…”
Section: Discussionsupporting
confidence: 92%
“…It has been hypothesized that bactericidal antibiotics lead to metabolic instability and the formation of toxic ROS as part of their lethality (28,29,35,36). Acceleration of cellular respiration by bactericidal antibiotics may be a potential source of ROS (45). Our work supports this model by showing that tuning rates of basal cellular respiration can significantly impact bactericidal efficacy.…”
Section: Bacteriostatic Alterations To the Metabolome Correspond To Rsupporting
confidence: 76%