Emergence of coexistence of a novel bla(NDM-5)-harbouring IncI1-I plasmid and an mcr-1.1-harbouring IncHI2 plasmid in a clinical Escherichia coli isolate in China

High prevalence and transmission of blaNDM-positive Escherichia coli between farmed ducks and slaughtered meats: An increasing threat to food safety

The emergence of carbapenem-resistant bacteria especially carbapenem-resistant Escherichia coli (CREC) in food animals poses a serious threat to food safety and public health. Reports about the dissemination of carbapenem-resistant bacteria along the food animal production chain are scattered and mainly focus on swine and chicken. Abuse of antibiotics in duck farms is common especially in China which has the largest duck production industry, however, the CREC transmission between farmed ducks and slaughtered meats remains unclear and the role of slaughterhouse in disseminating CREC among duck meats remains largely unknown. Herein, we collected 251 fecal samples from five typical duck farms along with 125 slaughtered meat samples (25 from each farm) in the corresponding slaughterhouse in Anhui Province, China, in December 2018. All samples were screened for CREC isolates which were analyzed for the presence of carbapenemase genes and colistin resistance gene mcr. The resistance profiles, transferability, pulsed-field gel electrophoresis (PFGE), whole-genome sequencing and phylogenetic analysis of the CREC isolates from both ducks and meats were further characterized. This is the first report presenting the high prevalence of blaNDM-positive CREC isolates in ducks from duck farms (57.8 %) and slaughtered meats (33.6 %) in the corresponding slaughterhouse. Among the 203 blaNDM-positive CREC isolates obtained in this study, 19.2 % harbored mcr-1 and all CREC isolates showed resistance to nearly all currently available antibiotics (except tigecycline). Of note, mcr-1 was found in 17.8 % of the meat-derived CREC carrying blaNDM. Based on the PFGE analysis, clonal spread of blaNDM-positive CREC including some also carrying mcr-1 was found between farmed ducks and slaughtered duck meats even from different farms. Special attention should be paid to the clonal dissemination of meat-derived CREC within the slaughterhouse, which contributed to the high prevalence of blaNDM in slaughtered meats. Additionally, horizontal transmission mainly mediated by transferable blaNDM-5-bearing IncX3 plasmids, untypable blaNDM-1-bearing plasmids and mcr-1-bearing IncHI2 plasmids further facilitated the rapid spread of such multidrug-resistant strains. Notably, the blaNDM-bearing plasmids and mcr-1-bearing plasmids in CREC from meats were highly similar to those from animals and humans. More worryingly, the phylogenomic analysis showed that CREC isolates from both ducks and corresponding meats clustered with previously reported human CREC isolates carrying mcr-1 in different geographical areas including China. These findings further prove that the CREC and resistance plasmids in farmed ducks could transmit to meats even from different farms via the slaughterhouse and then trigger infections in humans. The high prevalence and clonal transmission of CREC isolates including those also carrying mcr-1 between ducks and meats are alarming, and urgent control measures are required to reduce the dissemination of such organisms.

Emergence and plasmid cointegration-based evolution of NDM-1-producing ST107 Citrobacter freundii high-risk resistant clone in China

Carbapenem-resistant Citrobacter freundii (CRCF) poses an enormous challenge in the health care setting. However, the epidemiology and plasmid dynamic evolution of this species have not been well studied, especially for the novel high-risk resistant clones in the intensive care units (ICUs). Here, we characterised the cointegration-based plasmid dynamic evolution of the emerging ST107 CRCF clone in China. Twenty CRCF strains were identified, including ST22 (30%), ST107 (25%), ST396 (10%) and ST116 (10%). Interestingly, the tigecycline (TGC) resistance gene cluster tmexCD2-toprJ2 and blaNDM-1 and blaKPC-2 were simultaneously found in one ST107 strain. Epidemiological analysis showed that ST107 clone contained human- and environment-derived strains from five countries. Notably, 93.75% (15/16) of the isolates harboured blaNDM-1 or blaKPC-2. Plasmid fusion among various ST107 strains of two patients occurred in the same ICU, mediated by Tn5403 and IS26-based insertion and deletion events. pCF1807-2 carried blaNDM-1 while pCF1807-3 carried both tmexCD2-toprJ2 and blaKPC-2 in the CF1807 strain. Importantly, the cointegrate plasmid pCF1807-2 exhibited higher transfer efficiency and could remain stable after serial passage. Notably, no fitness cost was observed for the host. In conclusion, ST107 CRCF is a high-risk resistant clone due to its ability to integrate resistant plasmids. Our findings elucidated the potential threat and global transmission of the ST107 lineage, and reasonable monitoring should be performed to prevent its further spread in hospitals.

Occurrence and characterization of NDM-5-producing Escherichia coli from retail eggs

The New Delhi Metallo-β-lactamase (NDM) producing Enterobacterales has been detected from diverse sources but has rarely been reported in retail eggs. In this study, 144 eggshell and 96 egg content samples were collected in 2022 from Guangdong province and were screened for NDM-producing strains. Four Escherichia coli strains (ST3014, ST10, ST1485, and ST14747) recovered from two (1.39%, 2 of 144) eggshells and two (2.08%, 2 of 96) egg content samples were identified as blaNDM-5-positive strains. Oxford Nanopore MinION sequencing and conjugation assays revealed that the blaNDM-5 gene was carried by IncX3 (n = 1), IncI1 (n = 1), and IncHI2 (n = 2). The IncI1-plasmid-carrying blaNDM-5 displayed high homology with one plasmid pEC6563-NDM5 from the human clinic, while the IncHI2 plasmid harboring blaNDM-5 shared highly similar structures with plasmids of animal origin. To the best of our knowledge, this is the first report on the identification of blaNDM-5-positive bacteria in retail eggs. NDM-producing E. coli could be transmitted to humans by the consumption of eggs or direct contact, which could pose a potential threat to human health.