Breaching the Barrier: Genome-Wide Investigation into the Role of a Primary Amine in Promoting E. coli Outer-Membrane Passage and Growth Inhibition by Ampicillin

Maher, Claire; Maharjan, Ram; Sullivan, Geraldine; Cain, Amy K.; Hassan, Karl A.

Title: Breaching the Barrier: Genome-Wide Investigation into the Role of a Primary Amine in Promoting E. coli Outer-Membrane Passage and Growth Inhibition by Ampicillin
Creator: Maher, Claire; Maharjan, Ram; Sullivan, Geraldine; Cain, Amy K.; Hassan, Karl A.
Relation: ARC.FT180100123 http://purl.org/au-research/grants/arc/FT180100123
Relation: Microbiology Spectrum Vol. 10, Issue 6
Publisher Link: http://dx.doi.org/10.1128/spectrum.03593-22
Publisher: American Society for Microbiology
Resource Type: journal article
Date: 2022
Description: Gram-negative bacteria are problematic for antibiotic development due to the low permeability of their cell envelopes. To rationally design new antibiotics capable of breaching this barrier, more information is required about the specific components of the cell envelope that prevent the passage of compounds with different physiochemical properties. Ampicillin and benzylpenicillin are b-lactam antibiotics with identical chemical structures except for a clever synthetic addition of a primary amine group in ampicillin, which promotes its accumulation in Gram-negatives. Previous work showed that ampicillin is better able to pass through the outer membrane porin OmpF in Escherichia coli compared to benzylpenicillin. It is not known, however, how the primary amine may affect interaction with other cell envelope components. This study applied TraDIS to identify genes that affect E. coli fitness in the presence of equivalent subinhibitory concentrations of ampicillin and benzylpenicillin, with a focus on the cell envelope. Insertions that compromised the outer membrane, particularly the lipopolysaccharide layer, were found to decrease fitness under benzylpenicillin exposure, but had less effect on fitness under ampicillin treatment. These results align with expectations if benzylpenicillin is poorly able to pass through porins. Disruption of genes encoding the AcrAB-TolC efflux system were detrimental to survival under both antibiotics, but particularly ampicillin. Indeed, insertions in these genes and regulators of acrAB-tolC expression were differentially selected under ampicillin treatment to a greater extent than insertions in ompF. These results suggest that maintaining ampicillin efflux may be more significant to E. coli survival than full inhibition of OmpF-mediated uptake.
Subject: efflux pumps; gram-negative bacteria; outer membrane
Identifier: http://hdl.handle.net/1959.13/1480553
Identifier: uon:50529
Identifier: ISSN:2165-0497
Language: eng
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