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Δευτέρα 6 Αυγούστου 2018

Studies on Aminoglycoside Susceptibility Identified a Novel Function of KsgA to Secure Translational Fidelity during Antibiotic Stress [PublishAheadOfPrint]

Antibiotic resistance has become a global crisis. Studies on the mechanism of bacterial tolerance to antibiotics will not only increase our conceptual understanding of bacterial death but also provide potential targets for novel inhibitors. We screened a mutant library containing a full set of in-frame deletion mutants of Escherichia coli K-12 and identified 140 genes that possibly contribute to gentamicin tolerance. Deletion of ksgA increased the inhibition and killing potency against mid-log phase bacteria by aminoglycosides. Initially identified as a 16S rRNA methyltransferase, KsgA also has additional functions as a ribosomal biogenesis factor and a DNA glycosylase. We found that the methyltransferase activity of KsgA is responsible for the tolerance, as demonstrated by a site-directed mutagenesis analysis. In contrast to the mechanism for cold sensitivity, the decreased tolerance to aminoglycoside is not related to the failure of ribosomal biogenesis. Furthermore, the DNA glycosylase activity of KsgA plays little role in kanamycin tolerance. Importantly, we discovered that KsgA secures protein translational fidelity upon kanamycin killing, in contrast to its role during cold stress and kasugamycin treatment. The results suggest that the compromise in protein translational fidelity in the absence of KsgA is the root cause of increased sensitivity to a bactericidal aminoglycoside. In addition, KsgA in the pathogenic Acinetobacter baumannii contributes not only to the tolerance against aminoglycoside killing but also to virulence in the host, warranting potential application as a target for inhibitors that potentiate aminoglycoside therapeutic killing as well as disarm bacterial virulence simultaneously.



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