Extended spectrum β-lactamase-producing Escherichia coli forms filaments as an initial response to cefotaxime treatment

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Standard

Extended spectrum β-lactamase-producing Escherichia coli forms filaments as an initial response to cefotaxime treatment. / Møller, Thea Schiønning Bødker; Sommer, Morten O. A.; Olsen, John Elmerdahl.

I: B M C Microbiology, Bind 15, 63, 03.2015.

Publikation: Bidrag til tidsskriftTidsskriftartikelfagfællebedømt

Harvard

Møller, TSB, Sommer, MOA & Olsen, JE 2015, 'Extended spectrum β-lactamase-producing Escherichia coli forms filaments as an initial response to cefotaxime treatment', B M C Microbiology, bind 15, 63. https://doi.org/10.1186/s12866-015-0399-3

APA

Møller, T. S. B., Sommer, M. O. A., & Olsen, J. E. (2015). Extended spectrum β-lactamase-producing Escherichia coli forms filaments as an initial response to cefotaxime treatment. B M C Microbiology, 15, [63]. https://doi.org/10.1186/s12866-015-0399-3

Vancouver

Møller TSB, Sommer MOA, Olsen JE. Extended spectrum β-lactamase-producing Escherichia coli forms filaments as an initial response to cefotaxime treatment. B M C Microbiology. 2015 mar.;15. 63. https://doi.org/10.1186/s12866-015-0399-3

Author

Møller, Thea Schiønning Bødker ; Sommer, Morten O. A. ; Olsen, John Elmerdahl. / Extended spectrum β-lactamase-producing Escherichia coli forms filaments as an initial response to cefotaxime treatment. I: B M C Microbiology. 2015 ; Bind 15.

Bibtex

@article{e355521f4db0477d9cb57d7f2293028b,
title = "Extended spectrum β-lactamase-producing Escherichia coli forms filaments as an initial response to cefotaxime treatment",
abstract = "BACKGROUND: β-lactams target the peptidoglycan layer in the bacterial cell wall and most β-lactam antibiotics cause filamentation in susceptible Gram-negative bacteria at low concentrations. The objective was to determine the initial morphological response of cephalosporin resistant CTX-M-1-producing E. coli to cefotaxime and to determine whether the response depended on the growth phase of the bacterium and the concentration of antibiotic.RESULTS: Two antibiotic resistant strains carrying bla CTX-M-1 on the chromosome and on an IncI1 plasmid and three sensitive strains were used in this study. The resistant strains displayed elongated cells when exposed to cefotaxime at sub-inhibitory as well as therapeutic concentrations (1 to 512 mg/L of cefotaxime) in both lag and early exponential phase, suggesting that the elongation was an initial response mechanism to the antibiotic. Normal sized cells were the dominant cell type in exponential and stationary growth phase. No elongated cells were seen in cultures without cefotaxime. In cultures with high concentrations of cefotaxime (128-512 mg/L), no growth other than initial filamentation was observed, but spheroplats appeared after 14-17 hours in cultures of the resistant strains. Filaments were also observed in sensitive control strains with sub-inhibitory concentrations of cefotaxime.CONCLUSIONS: We showed that E. coli resistant to β-lactams by an extended-spectrum β-lactamase, bla CTX-M-1, produced filaments when exposed to cefotaxime. The filament formation was restricted to early growth phases and the time the cells grew as filaments was antibiotic concentration dependent. This indicates that antibiotic resistant E. coli undergo the same morphological changes as sensitive bacteria in the presence of β-lactam antibiotic. It was showed that the filament formation was an initial response to the antibiotics.",
keywords = "Faculty of Health and Medical Sciences, antimicrobial resistance, CTX-M-1, Filaments",
author = "M{\o}ller, {Thea Schi{\o}nning B{\o}dker} and Sommer, {Morten O. A.} and Olsen, {John Elmerdahl}",
year = "2015",
month = mar,
doi = "10.1186/s12866-015-0399-3",
language = "English",
volume = "15",
journal = "BMC Microbiology",
issn = "1471-2180",
publisher = "BioMed Central Ltd.",

}

RIS

TY - JOUR

T1 - Extended spectrum β-lactamase-producing Escherichia coli forms filaments as an initial response to cefotaxime treatment

AU - Møller, Thea Schiønning Bødker

AU - Sommer, Morten O. A.

AU - Olsen, John Elmerdahl

PY - 2015/3

Y1 - 2015/3

N2 - BACKGROUND: β-lactams target the peptidoglycan layer in the bacterial cell wall and most β-lactam antibiotics cause filamentation in susceptible Gram-negative bacteria at low concentrations. The objective was to determine the initial morphological response of cephalosporin resistant CTX-M-1-producing E. coli to cefotaxime and to determine whether the response depended on the growth phase of the bacterium and the concentration of antibiotic.RESULTS: Two antibiotic resistant strains carrying bla CTX-M-1 on the chromosome and on an IncI1 plasmid and three sensitive strains were used in this study. The resistant strains displayed elongated cells when exposed to cefotaxime at sub-inhibitory as well as therapeutic concentrations (1 to 512 mg/L of cefotaxime) in both lag and early exponential phase, suggesting that the elongation was an initial response mechanism to the antibiotic. Normal sized cells were the dominant cell type in exponential and stationary growth phase. No elongated cells were seen in cultures without cefotaxime. In cultures with high concentrations of cefotaxime (128-512 mg/L), no growth other than initial filamentation was observed, but spheroplats appeared after 14-17 hours in cultures of the resistant strains. Filaments were also observed in sensitive control strains with sub-inhibitory concentrations of cefotaxime.CONCLUSIONS: We showed that E. coli resistant to β-lactams by an extended-spectrum β-lactamase, bla CTX-M-1, produced filaments when exposed to cefotaxime. The filament formation was restricted to early growth phases and the time the cells grew as filaments was antibiotic concentration dependent. This indicates that antibiotic resistant E. coli undergo the same morphological changes as sensitive bacteria in the presence of β-lactam antibiotic. It was showed that the filament formation was an initial response to the antibiotics.

AB - BACKGROUND: β-lactams target the peptidoglycan layer in the bacterial cell wall and most β-lactam antibiotics cause filamentation in susceptible Gram-negative bacteria at low concentrations. The objective was to determine the initial morphological response of cephalosporin resistant CTX-M-1-producing E. coli to cefotaxime and to determine whether the response depended on the growth phase of the bacterium and the concentration of antibiotic.RESULTS: Two antibiotic resistant strains carrying bla CTX-M-1 on the chromosome and on an IncI1 plasmid and three sensitive strains were used in this study. The resistant strains displayed elongated cells when exposed to cefotaxime at sub-inhibitory as well as therapeutic concentrations (1 to 512 mg/L of cefotaxime) in both lag and early exponential phase, suggesting that the elongation was an initial response mechanism to the antibiotic. Normal sized cells were the dominant cell type in exponential and stationary growth phase. No elongated cells were seen in cultures without cefotaxime. In cultures with high concentrations of cefotaxime (128-512 mg/L), no growth other than initial filamentation was observed, but spheroplats appeared after 14-17 hours in cultures of the resistant strains. Filaments were also observed in sensitive control strains with sub-inhibitory concentrations of cefotaxime.CONCLUSIONS: We showed that E. coli resistant to β-lactams by an extended-spectrum β-lactamase, bla CTX-M-1, produced filaments when exposed to cefotaxime. The filament formation was restricted to early growth phases and the time the cells grew as filaments was antibiotic concentration dependent. This indicates that antibiotic resistant E. coli undergo the same morphological changes as sensitive bacteria in the presence of β-lactam antibiotic. It was showed that the filament formation was an initial response to the antibiotics.

KW - Faculty of Health and Medical Sciences

KW - antimicrobial resistance

KW - CTX-M-1

KW - Filaments

U2 - 10.1186/s12866-015-0399-3

DO - 10.1186/s12866-015-0399-3

M3 - Journal article

C2 - 25777041

VL - 15

JO - BMC Microbiology

JF - BMC Microbiology

SN - 1471-2180

M1 - 63

ER -

ID: 132893017