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Literature DB >> 29437613

Evolution of the Pseudomonas aeruginosa Aminoglycoside Mutational Resistome In Vitro and in the Cystic Fibrosis Setting.

Carla López-Causapé¹, Rosa Rubio², Gabriel Cabot², Antonio Oliver².

Abstract

Inhaled administration of high doses of aminoglycosides is a key maintenance treatment of Pseudomonas aeruginosa chronic respiratory infections in cystic fibrosis (CF). We analyzed the dynamics and mechanisms of stepwise high-level tobramycin resistance development in vitro and compared the results with those of isogenic pairs of susceptible and resistant clinical isolates. Resistance development correlated with fusA1 mutations in vitro and in vivo. pmrB mutations, conferring polymyxin resistance, were also frequently selected in vitro In contrast, mutational overexpression of MexXY, a hallmark of aminoglycoside resistance in CF, was not observed in in vitro evolution experiments.

Entities: Chemical Disease Species

Keywords: Pseudomonas aeruginosa; aminoglycosides; antibiotic resistance; drug resistance mechanisms; mutational resistome; whole-genome sequencing

Mesh：

Substances：
Aminoglycosides

Year: 2018 PMID： 29437613 PMCID： PMC5913951 DOI： 10.1128/AAC.02583-17

Source DB: PubMed Journal: Antimicrob Agents Chemother ISSN： 0066-4804 Impact factor: 5.191

33 in total

Review 1. Aminoglycoside resistance in Pseudomonas aeruginosa.

Authors: Keith Poole
Journal: Antimicrob Agents Chemother Date: 2005-02 Impact factor: 5.191

Review 2. Pseudomonas aeruginosa: all roads lead to resistance.

Authors: Elena B M Breidenstein; César de la Fuente-Núñez; Robert E W Hancock
Journal: Trends Microbiol Date: 2011-06-12 Impact factor: 17.079

3. Mutations in Gene fusA1 as a Novel Mechanism of Aminoglycoside Resistance in Clinical Strains of Pseudomonas aeruginosa.

Authors: Arnaud Bolard; Patrick Plésiat; Katy Jeannot
Journal: Antimicrob Agents Chemother Date: 2018-01-25 Impact factor: 5.191

4. PmrB mutations promote polymyxin resistance of Pseudomonas aeruginosa isolated from colistin-treated cystic fibrosis patients.

Authors: Samuel M Moskowitz; Mark K Brannon; Nandini Dasgupta; Miyuki Pier; Nicole Sgambati; Amanda K Miller; Sara E Selgrade; Samuel I Miller; Miles Denton; Steven P Conway; Helle K Johansen; Niels Høiby
Journal: Antimicrob Agents Chemother Date: 2011-11-21 Impact factor: 5.191

Review 5. Pseudomonas aeruginosa: new insights into pathogenesis and host defenses.

Authors: Shaan L Gellatly; Robert E W Hancock
Journal: Pathog Dis Date: 2013-03-15 Impact factor: 3.166

Review 6. Pseudomonas aeruginosa: resistance and therapeutic options at the turn of the new millennium.

Authors: N Mesaros; P Nordmann; P Plésiat; M Roussel-Delvallez; J Van Eldere; Y Glupczynski; Y Van Laethem; F Jacobs; P Lebecque; A Malfroot; P M Tulkens; F Van Bambeke
Journal: Clin Microbiol Infect Date: 2007-01-31 Impact factor: 8.067

7. Heterogeneity of antibiotic resistance in mucoid isolates of Pseudomonas aeruginosa obtained from cystic fibrosis patients: role of outer membrane proteins.

Authors: R T Irvin; J W Govan; J A Fyfe; J W Costerton
Journal: Antimicrob Agents Chemother Date: 1981-06 Impact factor: 5.191

Review 8. Antibacterial-resistant Pseudomonas aeruginosa: clinical impact and complex regulation of chromosomally encoded resistance mechanisms.

Authors: Philip D Lister; Daniel J Wolter; Nancy D Hanson
Journal: Clin Microbiol Rev Date: 2009-10 Impact factor: 26.132

9. Pseudomonas aeruginosa: resistance to the max.

Authors: Keith Poole
Journal: Front Microbiol Date: 2011-04-05 Impact factor: 5.640

10. History of antibiotic adaptation influences microbial evolutionary dynamics during subsequent treatment.

Authors: Phillip Yen; Jason A Papin
Journal: PLoS Biol Date: 2017-08-08 Impact factor: 8.029

22 in total

1. Multidrug Adaptive Resistance of Pseudomonas aeruginosa Swarming Cells.

Authors: Shannon R Coleman; Travis Blimkie; Reza Falsafi; Robert E W Hancock
Journal: Antimicrob Agents Chemother Date: 2020-02-21 Impact factor: 5.191

2. A large-scale whole-genome comparison shows that experimental evolution in response to antibiotics predicts changes in naturally evolved clinical Pseudomonas aeruginosa.

Authors: Samuel J T Wardell; Attika Rehman; Lois W Martin; Craig Winstanley; Wayne M Patrick; Iain L Lamont
Journal: Antimicrob Agents Chemother Date: 2019-09-30 Impact factor: 5.191

3. Production of Norspermidine Contributes to Aminoglycoside Resistance in pmrAB Mutants of Pseudomonas aeruginosa.

Authors: Arnaud Bolard; Monika Schniederjans; Susanne Haüssler; Pauline Triponney; Benoît Valot; Patrick Plésiat; Katy Jeannot
Journal: Antimicrob Agents Chemother Date: 2019-09-23 Impact factor: 5.191

4. Interaction of ArmZ with the DNA-binding domain of MexZ induces expression of mexXY multidrug efflux pump genes and antimicrobial resistance in Pseudomonas aeruginosa.

Authors: Adam Kawalek; Magdalena Modrzejewska; Bartlomiej Zieniuk; Aneta Agnieszka Bartosik; Grazyna Jagura-Burdzy
Journal: Antimicrob Agents Chemother Date: 2019-09-16 Impact factor: 5.191

5. Expression of Pseudomonas aeruginosa Antibiotic Resistance Genes Varies Greatly during Infections in Cystic Fibrosis Patients.

Authors: Lois W Martin; Cynthia L Robson; Annabelle M Watts; Andrew R Gray; Claire E Wainwright; Scott C Bell; Kay A Ramsay; Timothy J Kidd; David W Reid; Ben Brockway; Iain L Lamont
Journal: Antimicrob Agents Chemother Date: 2018-10-24 Impact factor: 5.191

9. Expression of the MexXY Aminoglycoside Efflux Pump and Presence of an Aminoglycoside-Modifying Enzyme in Clinical Pseudomonas aeruginosa Isolates Are Highly Correlated.

Authors: Alexander Seupt; Monika Schniederjans; Jürgen Tomasch; Susanne Häussler
Journal: Antimicrob Agents Chemother Date: 2020-12-16 Impact factor: 5.191

Review 10. Antibiotic resistance in Pseudomonas aeruginosa and adaptation to complex dynamic environments.

Authors: Lea M Sommer; Helle K Johansen; Søren Molin
Journal: Microb Genom Date: 2020-04-29