Selection of resistant bacteria at very low antibiotic concentrations.
Erik Gullberg,Sha Cao,Otto G. Berg,Carolina Ilbäck,Linus Sandegren,Diarmaid Hughes,Dan I. Andersson +6 more
TLDR
It is suggested that the low antibiotic concentrations found in many natural environments are important for enrichment and maintenance of resistance in bacterial populations.Abstract:
The widespread use of antibiotics is selecting for a variety of resistance mechanisms that seriously challenge our ability to treat bacterial infections. Resistant bacteria can be selected at the high concentrations of antibiotics used therapeutically, but what role the much lower antibiotic concentrations present in many environments plays in selection remains largely unclear. Here we show using highly sensitive competition experiments that selection of resistant bacteria occurs at extremely low antibiotic concentrations. Thus, for three clinically important antibiotics, drug concentrations up to several hundred-fold below the minimal inhibitory concentration of susceptible bacteria could enrich for resistant bacteria, even when present at a very low initial fraction. We also show that de novo mutants can be selected at sub-MIC concentrations of antibiotics, and we provide a mathematical model predicting how rapidly such mutants would take over in a susceptible population. These results add another dimension to the evolution of resistance and suggest that the low antibiotic concentrations found in many natural environments are important for enrichment and maintenance of resistance in bacterial populations.read more
Citations
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Tetracyclines, sulfonamides and quinolones and their corresponding resistance genes in coastal areas of Beibu Gulf, China
TL;DR: Investigation of the abundance of three prevalent categories of antibiotics and corresponding antibiotic resistance genes (ARGs) in the Beibu Gulf found that intI1 gene played a significant role in the occurrence and diffusion of ARGs, indicating that the control and treatment measures should deserve wide attention.
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Ciprofloxacin residue and antibiotic-resistant biofilm bacteria in hospital effluent
Jérôme Ory,Geneviève Bricheux,Anne Togola,Jean Bonnet,Florence Donnadieu-Bernard,Laurence Nakusi,Christiane Forestier,Ousmane Traore,Ousmane Traore +8 more
TL;DR: The effluents of the Gabriel Montpied teaching hospital, Clermont-Ferrand, France, are characterized by simultaneously measuring the concentration of ciprofloxacin and of biological indicators resistant to this molecule in biofilms formed in the hospital effluent and by comparingThese data confirm the role of hospital loads as sources of pollution for wastewater and question the role for environmentalBiofilms communities as efficient shelters for hospital-released resistance genes.
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The evolution of no-cost resistance at sub-MIC concentrations of streptomycin in Streptomyces coelicolor.
Sanne Westhoff,Tim M. van Leeuwe,Omar I. Qachach,Zheren Zhang,Gilles P. van Wezel,Daniel E. Rozen +5 more
TL;DR: The results broaden the conditions under which resistance can evolve in nature and suggest that rather than low-concentration antibiotics acting as signals, resistance evolves in response to antibiotics used as weapons.
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Fate and Effect of Antibiotics in Beef and Dairy Manure during Static and Turned Composting
TL;DR: Both static and turned composting were generally effective for reducing most beef and dairy antibiotic residuals excreted in manure, with no apparent negative impact of antibiotics on the composting process, but with some antibiotics apparently more recalcitrant than others.
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The Search for ‘Evolution-Proof’ Antibiotics
TL;DR: Whether or not evolution-proof antibiotics are ever found, searching for them is likely to improve the deployment of new and existing agents by advancing the understanding of how resistance evolves.
References
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Dan I. Andersson,Diarmaid Hughes +1 more
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