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Colony phase variation switch modulates antimicrobial tolerance and biofilm formation in Acinetobacter baumannii

Authors :
Mushtaq, Fizza
Nadeem, Aftab
Yabrag, Abdelbasset
Bala, Anju
Karah, Nabil
Zlatkov, Nikola
Wai, Sun Nyunt
Uhlin, Bernt Eric
Ahmad, Irfan
Mushtaq, Fizza
Nadeem, Aftab
Yabrag, Abdelbasset
Bala, Anju
Karah, Nabil
Zlatkov, Nikola
Wai, Sun Nyunt
Uhlin, Bernt Eric
Ahmad, Irfan
Publication Year :
2024

Abstract

Carbapenem-resistant Acinetobacter baumannii causes one of the most difficult-to-treat nosocomial infections. Polycationic drugs like polymyxin B or colistin and tetracycline drugs such as doxycycline or minocycline are commonly used to treat infections caused by carbapenem-resistant A. baumannii. Here, we show that a subpopulation of cells associated with the opaque/translucent colony phase variation by A. baumannii AB5075 displays differential tolerance to subinhibitory concentrations of colistin and tetracycline. Using a variety of microscopic techniques, we demonstrate that extracellular polysaccharide moieties mediate colistin tolerance to opaque A. baumannii at single-cell level and that mushroom-shaped biofilm structures protect opaque bacteria at the community level. The colony switch phenotype is found to alter several traits of A. baumannii, including long-term survival under desiccation, tolerance to ethanol, competition with Escherichia coli, and intracellular survival in the environmental model host Acanthamoeba castellanii. Additionally, our findings suggest that extracellular DNA associated with membrane vesicles can promote colony switching in a DNA recombinase-dependent manner. Importance: As a WHO top-priority drug-resistant microbe, Acinetobacter baumannii significantly contributes to hospital-associated infections worldwide. One particularly intriguing aspect is its ability to reversibly switch its colony morphotype on agar plates, which has been remarkably underexplored. In this study, we employed various microscopic techniques and phenotypic assays to investigate the colony phase variation switch under different clinically and environmentally relevant conditions. Our findings reveal that the presence of a poly N-acetylglucosamine-positive extracellular matrix layer contributes to the protection of bacteria from the bactericidal effects of colistin. Furthermore, we provide intriguing insights into the multicellular lifestyle of A. baumannii, spe

Details

Database :
OAIster
Notes :
application/pdf, English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1428134714
Document Type :
Electronic Resource
Full Text :
https://doi.org/10.1128.spectrum.02956-23