Molecular and Genomic Insights of mcr-1-Producing Escherichia coli Isolates from Piglets

Colistin-resistant Klebsiella pneumoniae species complex: The scenario in Mexico

OBJECTIVES

Characterize the colistin-resistance mechanisms, determine the molecular epidemiology, and genomic traits of the colistin-resistant Klebsiella pneumoniae species complex (ColR-KpSC) clinical isolates in Mexico.

METHODS

In this study, 1,539 KpSC isolates were collected in Mexico from 2016 to 2021. We conducted a comprehensive analysis that included microbiological, genetic, molecular, and genomic approaches.

RESULTS

A total of 50 isolates (3.25%) were colistin-resistant; of which 49 (98%) corresponded to K. pneumoniae and 1 (2%) to Klebsiella quasipneumoniae. Whole genome sequencing of these resistant isolates revealed intra- and inter-hospital dissemination, and the mgrB inactivation was the main resistance mechanism. Some KpSC isolates carried plasmid-borne mcr-1 gene found in Escherichia coli from piglets in Mexico. The colistin-resistant isolates presented a high prevalence of ESBL- and NDM-1 genes, and one hypervirulent strain also produced ESBL CTX-M-15.

CONCLUSION

This study provides a comprehensive snapshot of the epidemiology of ColR-KpSC in Mexico, highlighting a high prevalence of NDM-1 carbapenemase among ColR-KpSC isolates; this is in line with previous reports identifying NDM-1 as the most prevalent carbapenemase in K. pneumoniae species complex. This problem is particularly concerning in Mexico because of the lack of therapeutic options.

Molecular Epidemiology of mcr-1-Positive Polymyxin B-Resistant Escherichia coli Producing Extended-Spectrum β-Lactamase (ESBL) in a Tertiary Hospital in Shandong, China

Escherichia coli, a rod-shaped Gram-negative bacterium, is a significant causative agent of severe clinical bacterial infections. This study aimed to analyze the epidemiology of extended-spectrum β-lactamase (ESBL)-producing mcr-1 -positive E. coli in Shandong, China. We collected 668 non-duplicate ESBL-producing E. coli strains from clinical samples at Shandong Provincial Hospital between January and December 2018, and estimated their minimum inhibitory concentrations (MICs) using a VITEK® 2 compact system and broth microdilution. Next-generation sequencing and bioinformatic analyses identified the mcr-1 gene and other resistance genes in the polymyxin B-resistant strains. The conjugation experiment assessed the horizontal transfer capacity of the mcr-1 gene. Of the strains collected, 24 polymyxin B-resistant strains were isolated with a positivity rate of 3.59% and among the 668 strains, 19 clinical strains carried the mobile colistin resistance gene mcr-1, with a positivity rate of approximately 2.8%. All 19 clinical strains were resistant to ampicillin, cefazolin, ceftriaxone, ciprofloxacin, levofloxacin, and polymyxin B. Seventeen strains successfully transferred the mcr-1 gene into E. coli J53. All transconjugants were resistant to polymyxin B, and carried the drug resistance gene mcr-1. The 19 clinical strains had 14 sequence types (STs), with ST155 (n = 4) being the most common. The whole-genome sequencing results of pECO-POL-29_mcr1 revealed that no ISApl1 insertion sequences were found on either side of the mcr-1 gene. Our study uncovered the molecular epidemiology of mcr-1-carrying ESBL-producing E. coli in the region and suggested horizontal transmission mediated by plasmids as the main mode of mcr-1 transmission.

Farm to table: colistin resistance hitchhiking through food

Colistin is a high priority, last-resort antibiotic recklessly used in livestock and poultry farms. It is used as an antibiotic for treating multi-drug resistant Gram-negative bacterial infections as well as a growth promoter in poultry and animal farms. The sub-therapeutic doses of colistin exert a selection pressure on bacteria leading to the emergence of colistin resistance in the environment. Colistin resistance gene, mcr are mostly plasmid-mediated, amplifying the horizontal gene transfer. Food products such as chicken, meat, pork etc. disseminate colistin resistance to humans through zoonotic transfer. The antimicrobial residues used in livestock and poultry often leaches to soil and water through faeces. This review highlights the recent status of colistin use in food-producing animals, its association with colistin resistance adversely affecting public health. The underlying mechanism of colistin resistance has been explored. The prohibition of over-the-counter colistin sales and as growth promoters for animals and broilers has exhibited effective stewardship of colistin resistance in several countries.