Abstract
ABSTRACTMultidrug efflux pumps provide clinically significant levels of drug resistance in a number of Gram-negative hospital-acquired pathogens. These pathogens frequently carry dozens of genes encoding putative multidrug efflux pumps. However, it can be difficult to determine how many of these pumps actually mediate antimicrobial efflux, and it can be even more challenging to identify the regulatory proteins that control expression of these pumps. In this study, we developed an innovative high-throughput screening method, combining transposon insertion sequencing and cell sorting methods (TraDISort), to identify the genes encoding major multidrug efflux pumps, regulators, and other factors that may affect the permeation of antimicrobials, using the nosocomial pathogen Acinetobacter baumannii. A dense library of more than 100,000 unique transposon insertion mutants was treated with ethidium bromide, a common substrate of multidrug efflux pumps that is differentially fluorescent inside and outside the bacterial cytoplasm. Populations of cells displaying aberrant accumulations of ethidium were physically enriched using fluorescence-activated cell sorting, and the genomic locations of transposon insertions within these strains were determined using transposon-directed insertion sequencing. The relative abundance of mutants in the input pool compared to the selected mutant pools indicated that the AdeABC, AdeIJK, and AmvA efflux pumps are the major ethidium efflux systems in A. baumannii. Furthermore, the method identified a new transcriptional regulator that controls expression of amvA. In addition to the identification of efflux pumps and their regulators, TraDISort identified genes that are likely to control cell division, cell morphology, or aggregation in A. baumannii.
Highlights
Multidrug efflux pumps provide clinically significant levels of drug resistance in a number of Gram-negative hospital-acquired pathogens
We hypothesized that when cells are treated with a subinhibitory concentration of ethidium, the ethidium concentrations in the cytoplasm of cells with defective multidrug efflux machinery should be higher than the concentration in wild-type cells at equilibrium, and the concentration in cells with overactive efflux machinery should be below that in wild-type cells To test this hypothesis, we examined populations of three isogenic strains of A. baumannii AB5057-UW [9] that differentially expressed AdeIJK, a major multidrug efflux pump in A. baumannii, which recognizes ethidium as a substrate [10, 11]: (i) wild-type AB5075UW, (ii) a mutant containing a transposon insertion in adeJ, and (iii) a mutant containing a transposon insertion in adeN, which encodes a negative regulator of adeIJK expression [9]
We exploited the differential fluorescence of ethidium inside and outside the cell to enrich for mutants showing aberrant accumulation of ethidium by fluorescence-activated cell sorting (FACS) and used Transposon-directed insertion sequencing (TraDIS) to identify the transposon insertion sites within the enriched mutants
Summary
Cain,b,c TaoTao Huang,a Qi Liu,a Liam D. Brzoska,a Liping Li,a Martin Ostrowski,a Nguyen Thi Khanh Nhu,d,e Tran Do Hoang Nhu,d Stephen Baker,d,f Julian Parkhill,b Ian T. Paulsena Department of Chemistry and Biomolecular Sciences, Macquarie University, Sydney, NSW, Australiaa; Wellcome Trust Sanger Institute, Hinxton, Cambridge, United Kingdomb; Liverpool School of Tropical Medicine, Malawi-Liverpool-Wellcome Trust Clinical Research Programme, Blantyre, Malawic; The Hospital for Tropical Diseases, Wellcome Trust Major Overseas Programme, Oxford University Clinical Research Unit, Ho Chi Minh City, Vietnamd; School of Chemistry and Molecular Biosciences, The University of Queensland, Brisbane, Queensland, Australiae; Centre for Tropical Medicine, Nuffield Department of Clinical Medicine, Oxford University, Oxford, United Kingdomf
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