Title : Characterization of the population structure, drug resistance mechanisms and plasmids of the community-associated Enterobacter cloacae complex in China - Zhou_2018_J.Antimicrob.Chemother_73_66 |
Author(s) : Zhou K , Yu W , Cao X , Shen P , Lu H , Luo Q , Rossen JWA , Xiao Y |
Ref : J Antimicrob Chemother , 73 :66 , 2018 |
Abstract :
OBJECTIVES: To investigate the population structure, drug resistance mechanisms and plasmids of community-associated Enterobacter cloacae complex (CA-ECC) isolates in China. METHODS: Sixty-two CA-ECC isolates collected from 31 hospitals across China were typed by hsp60 typing and MLST. ESBL and AmpC-overexpression phenotype was determined by double-disc synergy test. Replicon typing and conjugation were performed for plasmid analysis. All ESBL-positive isolates and representative conjugants were subjected to detailed characterization by WGS. RESULTS: Enterobacter hormaechei and Enterobacter kobei were predominant in our collections. MLST distinguished 46 STs with a polyclonal structure. ST591 was the most prevalent clone detected in northern China. Twenty-two isolates (35.5%) were ESBL positive and half of them were E. kobei. ESBL positivity was related to ESBL production (15/22) and to AmpC overexpression (18/22). Core-genome phylogenetic analysis identified intra- and inter-regional dissemination of ESBL-producing E. kobei clones. ESBL producers were exclusively classified as E. hormaechei and E. kobei, and blaCTX-M-3 was the most prevalent ESBL genotype (10/15) detected in four different environments. In the ESBL-positive population, the ESBL producers encoded more drug resistance genes (8-24 genes) by carrying more plasmids (1-3 plasmids) than the non-ESBL-producing isolates, resulting in an inter-group difference in drug susceptibilities. IncHI-type plasmids were prevalent in the ESBL producers (12/15). All IncHI2-type plasmids (n = 11) carried ESBL genes and shared a similar backbone to p09-036813-1A_261 recovered from Salmonella enterica in Canada. CONCLUSIONS: The species-specific distribution, species-dependent ESBL mechanism and endemic plasmids identified in our study highlight the necessity for tailored surveillance of CA-ECC in the future. |
PubMedSearch : Zhou_2018_J.Antimicrob.Chemother_73_66 |
PubMedID: 29088362 |
Gene_locus related to this paper: 9entr-a0a2j0pr84 |
Gene_locus | 9entr-a0a2j0pr84 |
Zhou K, Yu W, Cao X, Shen P, Lu H, Luo Q, Rossen JWA, Xiao Y (2018)
Characterization of the population structure, drug resistance mechanisms and plasmids of the community-associated Enterobacter cloacae complex in China
J Antimicrob Chemother
73 :66
Zhou K, Yu W, Cao X, Shen P, Lu H, Luo Q, Rossen JWA, Xiao Y (2018)
J Antimicrob Chemother
73 :66