Pseudomonas aeruginosa is responsible for chronic respiratory tract colonisation and acute exacerbations in cystic fibrosis (CF) patients. This Gram-negative bacterium often develops multidrug resistance, which represents a therapeutic challenge. The objective of this study was to characterise the phenotypic and genetic β-lactam resistance traits of P. aeruginosa strains isolated from CF patients at Grenoble Alpes University Hospital (Grenoble, France). The susceptibility to β-lactam compounds of 123 P. aeruginosa strains collected from the lower respiratory tract of 45 CF patients between 2010-2014 was evaluated. Genetic analyses focused on characterisation of the presence of carbapenemase- and extended-spectrum β-lactamases (ESBL)-encoding genes as well as alterations in the oprD gene encoding the OprD porin. Among the 123 P. aeruginosa strains evaluated, 25 were susceptible to both ceftazidime (CAZ) and imipenem (IPM), 9 only to IPM and 36 only to CAZ; 53 strains were resistant to both drugs. CAZ resistance could be reverted by cloxacillin in 29 strains, indicating overproduction of cephalosporinase. Genetic analyses performed for 79 P. aeruginosa strains revealed no ESBL- or carbapenemases-encoding genes. Among the 74 IPM-resistant strains, 42 (56.8%) displayed major alterations in the OprD protein sequence. This study shows that in this CF patient cohort, cephalosporinase overproduction and OprD alterations were the main resistance mechanisms of P. aeruginosa to CAZ and IPM, respectively. No genes coding for ESBLs or carbapenemases were detected, but monitoring of the emergence of such resistance genes in CF patients is warranted owing to their ability to rapidly spread by horizontal gene transfer.
Keywords: Carbapenemase; Cystic fibrosis; Extended-spectrum β-lactamase; OprD porin; Pseudomonas aeruginosa; β-Lactam resistance.
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