Emergence of tet(X4)-positive Enterobacterales in retail eggs and the widespread of IncFIA(HI1)-HI1A-HI1B(R27) plasmids carrying tet(X4).

The proliferation of antimicrobial-resistant microbes and resistance genes in various foods poses a serious hazard to public health. The plasmid-mediated tigecycline resistance gene tet(X4) has been detected in Enterobacterales from various niches but has not yet been reported in eggs. This study aimed to investigate the occurrence and characteristics of tigecycline-resistant strains from retail eggs. A total of 144 eggs were purchased from farmers' markets in Guangdong province, China, and eggshell (n = 144) and egg content (n = 96) samples were used to screen for tigecycline-resistant strains. Eight Escherichia coli strains (two ST195, one ST48, ST8165, ST752, ST93, ST189, and ST224) and one Klebsiella pneumoniae strain (ST252) recovered from eight (5.56 %, 8/144) egg samples (eggshells, n = 6; egg content, n = 2) were positive for tet(X4). Notably, the two E. coli ST195 strains were closely (15-54 SNPs) related to all the tet(X4)-positive E. coli ST195 from various origins (food animals, foods, migratory birds, human, and environment) deposited in GenBank. The E. coli ST224 showed a close phylogenetic relationship (9-12 SNPs) with two tet(X4)-positive E. coli strains from chicken feces and retail chicken in Guangdong province. The hybrid plasmid IncFIA(HI1)-HI1A-HI1B(R27) constitutes the predominant tet(X4) vector both herein (7/9, 77.78 %) and in the GenBank database (32/160, 20 %). The tet(X4)-positive IncFIA(HI1)-HI1A-HI1B(R27) plasmids, sharing highly similar structures, have been widely disseminated across China. However, the IncFIA(HI1)-HI1A-HI1B(R27) plasmids exhibit poor stability and low conjugation frequency. The contamination of tet(X4)-positive bacteria internally and externally in retail eggs poses a prospective food safety threat. More attention should be paid to the spread of the tet(X4) gene via epidemic clone E. coli ST195 and the plasmid IncFIA(HI1)-HI1A-HI1B(R27).

First detection of tet(X4)-positive Enterobacterales in retail vegetables and clonal spread of Escherichia coli ST195 producing Tet(X4) in animals, foods, and humans across China and Thailand.

The mobile tigecycline-resistant gene tet(X4), which confers resistance to all tetracyclines, has been identified in bacterial isolates from various sources. However, there are no reports on the occurrence of tet(X4) in bacterial isolates of ready-to-eat fresh vegetables. In this study, 113 vegetable samples from farmers' markets were screened for tigecycline-resistant strains. Ten Escherichia coli (two ST195, two ST48, and one ST10, ST58, ST88, ST394, ST641, and ST101) and one Klebsiella pneumoniae (ST327) recovered from nine vegetable samples (7.96 %) were identified as carrying tet(X4). The core genome sequences of the two E. coli ST195 isolates showed a close relationship (14-41 single-nucleotide polymorphisms) with 31 tet(X4)-bearing E. coli ST195 isolates from humans, pigs, pork, and bird in China and Thailand, and the 33 E. coli ST195 isolates producing Tet(X4) shared similar resistance genes and plasmid replicons. Nanopore sequencing and conjugation experiments confirmed that the tet(X4) genes were located on the hybrid plasmids IncFIA-HI1A-HI1B (n = 6), IncX1 (n = 3), and IncFII2 (n = 1) in E. coli, and IncFII plasmid in K. pneumoniae. IncFIA-HI1A-HI1B and IncX1 plasmids shared highly similar structures with plasmids from various sources in the GenBank database. This is the first study to report the observation of tet(X4)-positive bacteria in retail vegetables. The epidemic clones and plasmids contribute to tet(X4) dissemination in vegetables. The clonal spread of Tet(X4)-producing E. coli ST195 across multiple niches and countries could pose a potential threat to public health.