Efflux-mediated antibiotic resistance in Acinetobacter spp

doi:10.1128/AAC.01388-10

Review

. 2011 Mar;55(3):947-53.

doi: 10.1128/AAC.01388-10. Epub 2010 Dec 20.

Efflux-mediated antibiotic resistance in Acinetobacter spp

Sébastien Coyne¹, Patrice Courvalin, Bruno Périchon

Affiliations

PMID: 21173183
PMCID: PMC3067115
DOI: 10.1128/AAC.01388-10

Review

Efflux-mediated antibiotic resistance in Acinetobacter spp

Sébastien Coyne et al. Antimicrob Agents Chemother. 2011 Mar.

. 2011 Mar;55(3):947-53.

doi: 10.1128/AAC.01388-10. Epub 2010 Dec 20.

Authors

Sébastien Coyne¹, Patrice Courvalin, Bruno Périchon

Affiliation

¹ Institut Pasteur, Unité des Agents Antibactériens, 28 Rue du Docteur Roux, 75724 Paris Cedex 15, France.

PMID: 21173183
PMCID: PMC3067115
DOI: 10.1128/AAC.01388-10

Abstract

Among Acinetobacter spp., A. baumannii is the most frequently implicated in nosocomial infections, in particular in intensive care units. It was initially thought that multidrug resistance (MDR) in this species was due mainly to horizontal acquisition of resistance genes. However, it has recently become obvious that increased expression of chromosomal genes for efflux systems plays a major role in MDR. Among the five superfamilies of pumps, resistance-nodulation-division (RND) systems are the most prevalent in multiply resistant A. baumannii. RND pumps typically exhibit a wide substrate range that can include antibiotics, dyes, biocides, detergents, and antiseptics. Overexpression of AdeABC, secondary to mutations in the adeRS genes encoding a two-component regulatory system, constitutes a major mechanism of multiresistance in A. baumannii. AdeIJK, intrinsic to this species, is responsible for natural resistance, but since overexpression above a certain threshold is toxic for the host, its contribution to acquired resistance is minimal. The recently described AdeFGH, probably regulated by a LysR-type transcriptional regulator, also confers multidrug resistance when overexpressed. Non-RND efflux systems, such as CraA, AmvA, AbeM, and AbeS, have also been characterized for A. baumannii, as have AdeXYZ and AdeDE for other Acinetobacter spp. Finally, acquired narrow-spectrum efflux pumps, such as the major facilitator superfamily (MFS) members TetA, TetB, CmlA, and FloR and the small multidrug resistance (SMR) member QacE in Acinetobacter spp., have been detected and are mainly encoded by mobile genetic elements.

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Figures

**FIG. 1.**
Schematic representation of operons for RND efflux systems in *A. baumannii*. Open arrows represent coding sequences and indicate direction of transcription.

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References

1. Adams, M. D., et al. 2009. Resistance to colistin in Acinetobacter baumannii associated with mutations in the PmrAB two-component system. Antimicrob. Agents Chemother. 53:3628-3634. - PMC - PubMed
1. Agerso, Y., and A. Petersen. 2007. The tetracycline resistance determinant Tet 39 and the sulphonamide resistance gene sulI are common among resistant Acinetobacter spp. isolated from integrated fish farms in Thailand. J. Antimicrob. Chemother. 59:23-27. - PubMed
1. Aires, J. R., T. Kohler, H. Nikaido, and P. Plesiat. 1999. Involvement of an active efflux system in the natural resistance of Pseudomonas aeruginosa to aminoglycosides. Antimicrob. Agents Chemother. 43:2624-2628. - PMC - PubMed
1. Akers, K. S., et al. 2009. Tetracycline susceptibility testing and resistance genes in isolates of Acinetobacter baumannii-Acinetobacter calcoaceticus complex from a U.S. military hospital. Antimicrob. Agents Chemother. 53:2693-2695. - PMC - PubMed
1. Anandham, R., et al. 2010. Acinetobacter brisouii sp. nov., isolated from a wetland in Korea. J. Microbiol. 48:36-39. - PubMed

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[1] Adams, M. D., et al. 2009. Resistance to colistin in Acinetobacter baumannii associated with mutations in the PmrAB two-component system. Antimicrob. Agents Chemother. 53:3628-3634. - PMC - PubMed

[2] Adams, M. D., et al. 2009. Resistance to colistin in Acinetobacter baumannii associated with mutations in the PmrAB two-component system. Antimicrob. Agents Chemother. 53:3628-3634. - PMC - PubMed

[3] Agerso, Y., and A. Petersen. 2007. The tetracycline resistance determinant Tet 39 and the sulphonamide resistance gene sulI are common among resistant Acinetobacter spp. isolated from integrated fish farms in Thailand. J. Antimicrob. Chemother. 59:23-27. - PubMed

[4] Agerso, Y., and A. Petersen. 2007. The tetracycline resistance determinant Tet 39 and the sulphonamide resistance gene sulI are common among resistant Acinetobacter spp. isolated from integrated fish farms in Thailand. J. Antimicrob. Chemother. 59:23-27. - PubMed

[5] Aires, J. R., T. Kohler, H. Nikaido, and P. Plesiat. 1999. Involvement of an active efflux system in the natural resistance of Pseudomonas aeruginosa to aminoglycosides. Antimicrob. Agents Chemother. 43:2624-2628. - PMC - PubMed

[6] Aires, J. R., T. Kohler, H. Nikaido, and P. Plesiat. 1999. Involvement of an active efflux system in the natural resistance of Pseudomonas aeruginosa to aminoglycosides. Antimicrob. Agents Chemother. 43:2624-2628. - PMC - PubMed

[7] Akers, K. S., et al. 2009. Tetracycline susceptibility testing and resistance genes in isolates of Acinetobacter baumannii-Acinetobacter calcoaceticus complex from a U.S. military hospital. Antimicrob. Agents Chemother. 53:2693-2695. - PMC - PubMed

[8] Akers, K. S., et al. 2009. Tetracycline susceptibility testing and resistance genes in isolates of Acinetobacter baumannii-Acinetobacter calcoaceticus complex from a U.S. military hospital. Antimicrob. Agents Chemother. 53:2693-2695. - PMC - PubMed

[9] Anandham, R., et al. 2010. Acinetobacter brisouii sp. nov., isolated from a wetland in Korea. J. Microbiol. 48:36-39. - PubMed

[10] Anandham, R., et al. 2010. Acinetobacter brisouii sp. nov., isolated from a wetland in Korea. J. Microbiol. 48:36-39. - PubMed

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Efflux-mediated antibiotic resistance in Acinetobacter spp

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Efflux-mediated antibiotic resistance in Acinetobacter spp

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