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Sequence-Specific Targeting of Bacterial Resistance Genes Increases Antibiotic Efficacy.


ABSTRACT: The lack of effective and well-tolerated therapies against antibiotic-resistant bacteria is a global public health problem leading to prolonged treatment and increased mortality. To improve the efficacy of existing antibiotic compounds, we introduce a new method for strategically inducing antibiotic hypersensitivity in pathogenic bacteria. Following the systematic verification that the AcrAB-TolC efflux system is one of the major determinants of the intrinsic antibiotic resistance levels in Escherichia coli, we have developed a short antisense oligomer designed to inhibit the expression of acrA and increase antibiotic susceptibility in E. coli. By employing this strategy, we can inhibit E. coli growth using 2- to 40-fold lower antibiotic doses, depending on the antibiotic compound utilized. The sensitizing effect of the antisense oligomer is highly specific to the targeted gene's sequence, which is conserved in several bacterial genera, and the oligomer does not have any detectable toxicity against human cells. Finally, we demonstrate that antisense oligomers improve the efficacy of antibiotic combinations, allowing the combined use of even antagonistic antibiotic pairs that are typically not favored due to their reduced activities.

SUBMITTER: Ayhan DH 

PROVIDER: S-EPMC5025249 | biostudies-literature | 2016 Sep

REPOSITORIES: biostudies-literature

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Sequence-Specific Targeting of Bacterial Resistance Genes Increases Antibiotic Efficacy.

Ayhan Dilay Hazal DH   Tamer Yusuf Talha YT   Akbar Mohammed M   Bailey Stacey M SM   Wong Michael M   Daly Seth M SM   Greenberg David E DE   Toprak Erdal E  

PLoS biology 20160915 9


The lack of effective and well-tolerated therapies against antibiotic-resistant bacteria is a global public health problem leading to prolonged treatment and increased mortality. To improve the efficacy of existing antibiotic compounds, we introduce a new method for strategically inducing antibiotic hypersensitivity in pathogenic bacteria. Following the systematic verification that the AcrAB-TolC efflux system is one of the major determinants of the intrinsic antibiotic resistance levels in Esch  ...[more]

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