Abstract
Background Pseudomonas aeruginosa (PA) has a non-clonal, epidemic population with a few widely distributed and frequently encountered sequence types (STs) called ‘high-risk clusters’. Clinical P. aeruginosa (clinPA) has been studied in all inhabited continents excepted in Africa, where a very few isolates have been analyzed. Here, we characterized a collection of clinPA isolates from four countries of West and Central Africa.Methodology184 non-redundant isolates of clinPA from hospitals of Senegal, Ivory Coast, Nigeria, and Central African Republic were genotyped by MLST. We assessed their resistance level to antibiotics by agar diffusion and identified the extended-spectrum β-lactamases (ESBLs) and metallo-β-lactamases (MBLs) by sequencing. The population structure of the species was determined by a nucleotide-based analysis of the entire PA MLST database and further localized on the phylogenetic tree (i) the sequence types (STs) of the present collection, (ii) the STs by continents, (iii) ESBL- and MBL-producing STs from the MLST database.Principal FindingsWe found 80 distinct STs, of which 24 had no relationship with any known STs. ‘High-risk’ international clonal complexes (CC155, CC244, CC235) were frequently found in West and Central Africa. The five VIM-2-producing isolates belonged to CC233 and CC244. GES-1 and GES-9 enzymes were produced by one CC235 and one ST1469 isolate, respectively. We showed the spread of ‘high-risk’ international clonal complexes, often described as multidrug-resistant on other continents, with a fully susceptible phenotype. The MBL- and ESBL-producing STs were scattered throughout the phylogenetic tree and our data suggest a poor association between a continent and a specific phylogroup.ConclusionsESBL- and MBL-encoding genes are borne by both successful international clonal complexes and distinct local STs in clinPA of West and Central Africa. Furthermore, our data suggest that the spread of a ST could be either due to its antibiotic resistance or to features independent from the resistance to antibiotics.
Highlights
Pseudomonas aeruginosa is an important opportunistic human pathogen causing infection in patients with impaired immune systems [1]
Principal Findings: We found 80 distinct sequence types (STs), of which 24 had no relationship with any known STs
As pulsed-field gel electrophoresis (PFGE) typing is more discriminatory than multilocus sequence typing (MLST), we assumed here that all the isolates that give PTs with # 3 fragment differences shared the same ST (Cholley et al, submitted manuscript)
Summary
Pseudomonas aeruginosa is an important opportunistic human pathogen causing infection in patients with impaired immune systems [1]. From a limited number of studies often focused on antibioticresistant isolates, it appears that P. aeruginosa has a non-clonal, epidemic population with a few widely distributed and frequently encountered sequence types (STs) called ‘high-risk clusters’ [5,6,7,8,9,10]. West and Central Africa comprises large city agglomerations, little is known about the resistance level to antibiotics and the epidemiology of clinical P. aeruginosa. Pseudomonas aeruginosa (PA) has a non-clonal, epidemic population with a few widely distributed and frequently encountered sequence types (STs) called ‘high-risk clusters’. Clinical P. aeruginosa (clinPA) has been studied in all inhabited continents excepted in Africa, where a very few isolates have been analyzed. We characterized a collection of clinPA isolates from four countries of West and Central Africa
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