TY - JOUR
T1 - Aeromonas spp. from hospital sewage act as a reservoir of genes resistant to last-line antibiotics
AU - Wu, Yuchen
AU - Dong, Ning
AU - Cai, Chang
AU - Zeng, Yu
AU - Lu, Jiayue
AU - Liu, Congcong
AU - Wang, Hanyu
AU - Zhang, Yanyan
AU - Huang, Ling
AU - Zhai, Weishuai
AU - Shao, Dongyan
AU - Li, Ruichao
AU - Liu, Dejun
AU - Chen, Sheng
AU - Zhang, Rong
N1 - Funding Information:
This study was funded by National Natural Science Foundation of China ( 22193064 and 81861138052 ).
Publisher Copyright:
© 2023
PY - 2023/3
Y1 - 2023/3
N2 - Background: Aeromonas species are opportunistic pathogens distributed widely in the ecosystem. They are known to be capable of acquiring antibiotic resistance genes, including those encoding proteins against last-line antibiotics, such as the tmexCD-toprJ, mcr and carbapenemase genes. We investigated the genomic and phenotypic characteristics of tmexCD-toprJ-positive Aeromonas strains collected from human, animals, and water samples, particularly those from hospital wastewater in China. Methods: Samples were collected from living animals, meat, water and human. Aeromonas strains in these samples were isolated in selective media. Antimicrobial resistance profiles of all Aeromonas strains were tested by the broth microdilution method. The presence of tmexCD-toprJ was verified by polymerase chain reaction (PCR). All tmexCD-toprJ-positive (n = 36) and selected tmexCD-toprJ-negative (n = 18) Aeromonas strains were subjected to whole genome sequencing. Carriage of antimicrobial resistance genes, the genetic environment of tmexCD-toprJ and genetic diversity of tmexCD-toprJ-positive Aeromonas strains were determined by bioinformatics analysis. Phylogenetic tree of the Aeromonas strains was built by using the Harvest Suite. Findings: Among the 636 Aeromonas strains isolated from different sources, 36 were positive for tmexCD-toprJ, with the highest prevalence of tmexCD-toprJ being found in fishes (8.8%, 95 CI% 3.6–17.2%), followed by hospital wastewater (6.5%, 95 CI% 4.3–9.3%), river water (2.0%, 0.1–10.9) and duck (1.2%, 95 CI% 3.6–17.2%). All tmexCD-toprJ-positive Aeromonas strains carried multiple antimicrobial resistance genes and exhibited resistance to different classes of antibiotics. Co-existence of tmexCD-toprJ, mcr and blaKPC-2 were identified in 21 strains. The tmexCD-toprJ-positive Aeromonas strains were genetically diverse and found to belong to four different species that could be clustered into three major lineages. The tmexCD-toprJ gene clusters were predominantly located in the chromosome (35/36) of Aeromonas spp., with only one strain carrying the plasmid-borne tmexCD-toprJ cluster. The tmexCD-toprJ genes were associated with seven different types of genetic environments, each of which carried distinct types of mobile elements that may be responsible for mediating transmission of this gene cluster.
AB - Background: Aeromonas species are opportunistic pathogens distributed widely in the ecosystem. They are known to be capable of acquiring antibiotic resistance genes, including those encoding proteins against last-line antibiotics, such as the tmexCD-toprJ, mcr and carbapenemase genes. We investigated the genomic and phenotypic characteristics of tmexCD-toprJ-positive Aeromonas strains collected from human, animals, and water samples, particularly those from hospital wastewater in China. Methods: Samples were collected from living animals, meat, water and human. Aeromonas strains in these samples were isolated in selective media. Antimicrobial resistance profiles of all Aeromonas strains were tested by the broth microdilution method. The presence of tmexCD-toprJ was verified by polymerase chain reaction (PCR). All tmexCD-toprJ-positive (n = 36) and selected tmexCD-toprJ-negative (n = 18) Aeromonas strains were subjected to whole genome sequencing. Carriage of antimicrobial resistance genes, the genetic environment of tmexCD-toprJ and genetic diversity of tmexCD-toprJ-positive Aeromonas strains were determined by bioinformatics analysis. Phylogenetic tree of the Aeromonas strains was built by using the Harvest Suite. Findings: Among the 636 Aeromonas strains isolated from different sources, 36 were positive for tmexCD-toprJ, with the highest prevalence of tmexCD-toprJ being found in fishes (8.8%, 95 CI% 3.6–17.2%), followed by hospital wastewater (6.5%, 95 CI% 4.3–9.3%), river water (2.0%, 0.1–10.9) and duck (1.2%, 95 CI% 3.6–17.2%). All tmexCD-toprJ-positive Aeromonas strains carried multiple antimicrobial resistance genes and exhibited resistance to different classes of antibiotics. Co-existence of tmexCD-toprJ, mcr and blaKPC-2 were identified in 21 strains. The tmexCD-toprJ-positive Aeromonas strains were genetically diverse and found to belong to four different species that could be clustered into three major lineages. The tmexCD-toprJ gene clusters were predominantly located in the chromosome (35/36) of Aeromonas spp., with only one strain carrying the plasmid-borne tmexCD-toprJ cluster. The tmexCD-toprJ genes were associated with seven different types of genetic environments, each of which carried distinct types of mobile elements that may be responsible for mediating transmission of this gene cluster.
KW - Aeromonas
KW - Antimicrobial resistance
KW - Last line antibiotics
KW - TmexCD-toprJ
UR - http://www.scopus.com/inward/record.url?scp=85146560304&partnerID=8YFLogxK
U2 - 10.1016/j.drup.2023.100925
DO - 10.1016/j.drup.2023.100925
M3 - Journal article
C2 - 36696835
AN - SCOPUS:85146560304
SN - 1368-7646
VL - 67
JO - Drug Resistance Updates
JF - Drug Resistance Updates
M1 - 100925
ER -