Interplay among Resistance Profiles, High-Risk Clones, and Virulence in the Caenorhabditis elegans Pseudomonas aeruginosa Infection Model

Interplay among Resistance Profiles, High-Risk Clones, and Virulence in the Caenorhabditis elegans Pseudomonas aeruginosa Infection Model

The increasing prevalence of nosocomial infections produced by multidrug-resistant (MDR) or extensively drug-resistant (XDR) is frequently linked to widespread international strains designated high-risk clones. In this work, we attempted to decipher the interplay between resistance profiles, high-ri...

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Veröffentlicht in:Antimicrobial agents and chemotherapy 2017-12, Vol.61 (12)
Hauptverfasser: Sánchez-Diener, Irina, Zamorano, Laura, López-Causapé, Carla, Cabot, Gabriel, Mulet, Xavier, Peña, Carmen, Del Campo, Rosa, Cantón, Rafael, Doménech-Sánchez, Antonio, Martínez-Martínez, Luis, Arcos, Susana C, Navas, Alfonso, Oliver, Antonio
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container_issue 12
container_start_page
container_title Antimicrobial agents and chemotherapy
container_volume 61
creator Sánchez-Diener, Irina
Zamorano, Laura
López-Causapé, Carla
Cabot, Gabriel
Mulet, Xavier
Peña, Carmen
Del Campo, Rosa
Cantón, Rafael
Doménech-Sánchez, Antonio
Martínez-Martínez, Luis
Arcos, Susana C
Navas, Alfonso
Oliver, Antonio
description The increasing prevalence of nosocomial infections produced by multidrug-resistant (MDR) or extensively drug-resistant (XDR) is frequently linked to widespread international strains designated high-risk clones. In this work, we attempted to decipher the interplay between resistance profiles, high-risk clones, and virulence, testing a large ( = 140) collection of well-characterized isolates from different sources (bloodstream infections, nosocomial outbreaks, cystic fibrosis, and the environment) in a infection model. Consistent with previous data, we documented a clear inverse correlation between antimicrobial resistance and virulence in the model. Indeed, the lowest virulence was linked to XDR profiles, which were typically linked to defined high-risk clones. However, virulence varied broadly depending on the involved high-risk clone; it was high for sequence type 111 (ST111) and ST235 but very low for ST175. The highest virulence of ST235 could be attributed to its type III secretion system (TTSS) genotype, which was found to be linked with higher virulence in our model. Other markers, such as motility or pigment production, were not essential for virulence in the model but seemed to be related with the higher values of the statistical normalized data. In contrast to ST235, the ST175 high-risk clone, which is widespread in Spain and France, seems to be associated with a particularly low virulence in the model. Moreover, the previously described G154R AmpR mutation, prevalent in ST175, was found to contribute to the reduced virulence, although it was not the only factor involved. Altogether, our results provide a major step forward for understanding the interplay between resistance profiles, high-risk clones, and virulence.
doi_str_mv 10.1128/AAC.01586-17
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Other markers, such as motility or pigment production, were not essential for virulence in the model but seemed to be related with the higher values of the statistical normalized data. In contrast to ST235, the ST175 high-risk clone, which is widespread in Spain and France, seems to be associated with a particularly low virulence in the model. Moreover, the previously described G154R AmpR mutation, prevalent in ST175, was found to contribute to the reduced virulence, although it was not the only factor involved. 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title Interplay among Resistance Profiles, High-Risk Clones, and Virulence in the Caenorhabditis elegans Pseudomonas aeruginosa Infection Model
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