Abstract
AbstractWe aimed to determine the molecular characteristics of carbapenem-resistantPseudomonas aeruginosa18081308 and 18083286 isolated from the urine and sputum of two Chinese patients respectively, and analyzed the formation mechanism of the genetic environment in which it carriesblaIMP-1. Bacterial genome sequencing was carried out on strains 18081308 and 18083286 to obtain their whole genome sequence. Average nucleotide identity (ANI) was used for their precise species identification. Serotyping and multilocus sequence typing were performed. Furthermore, the acquired resistance genes, and virulence factors of these strains were identified. The carbapenem-resistantP. aeruginosastrains isolated in the present study were of sequence type ST865 and serotype O6. They all carried the same virulence factors (PLC, ExoSTY) and resistance genes (aacC2,tmrB, andblaIMP-1). Tn6411, a Tn7-like transposon carryingblaIMP-1, was found in both strains. Detailed genetic dissection was applied to this transposon to display the genetic environment ofblaIMP-1. TheaacC2-tmrBregion remnant-Tn6411backbone was the original structure of this type of transposon. A Tn402-like type 1 integron (intl1-aac(6’)-II-blaIMP-1) was inserted into it and formed a stable structure, which was localized in the chromosome by TnsD for transmission withinP. aeruginosa; the original structure of Tn7-like transposon was localized on the plasmid by TnsE for horizontal transmission between bacterial species.The intrahospital dissemination ofP. aeruginosaST865 isolated in this study was episodic. TheblaIMP-1-carrying Tn7-like transposon might enhance their ability to survive under drug selection pressure and aggravate the difficulty in treating infections.
Publisher
Cold Spring Harbor Laboratory
Reference32 articles.
1. Pseudomonas aeruginosa: A typical biofilm forming pathogen and an emerging but underestimated pathogen in food processing;Front. Microbiol,2023
2. Wastewater treatment plants, an ‘escape gate’ for ESCAPE pathogens;Front. Microbiol,2023
3. Centers for Disease Control and Prevention (U.S.). 2019. Antibiotic resistance threats in the United States, 2019.
4. Antibiotic resistance in Pseudomonas aeruginosa: mechanisms and alternative therapeutic strategies
5. Antibiotic resistance in Pseudomonas aeruginosa-Mechanisms, epidemiology and evolution;Drug Resist. Updat. Rev. Comment. Antimicrob. Anticancer Chemother,2019