2021 journal article

Antimicrobial resistance and interspecies gene transfer in Campylobacter coli and Campylobacter jejuni isolated from food animals, poultry processing, and retail meat in North Carolina, 2018-2019

PLOS ONE, 16(2).

By: D. Hull n, E. Harrell n, A. Vliet*, M. Correa n & S. Thakur n

MeSH headings : Animals; Anti-Bacterial Agents / pharmacology; Bacterial Proteins / genetics; Campylobacter coli / drug effects; Campylobacter coli / genetics; Campylobacter coli / isolation & purification; Campylobacter jejuni / drug effects; Campylobacter jejuni / genetics; Campylobacter jejuni / isolation & purification; Drug Resistance, Bacterial; Gene Transfer, Horizontal; Meat / microbiology; North Carolina; Poultry / microbiology
TL;DR: Evidence of C. coli and C. jejuni interspecies genomic exchange may aid pathogen adaption, lead to higher AMR and increase Campylobacter persistence in food processing is investigated to track evolving risks to public health. (via Semantic Scholar)
Source: Web Of Science
Added: March 15, 2021

The Center for Disease Control and Prevention identifies antimicrobial resistant (AMR)Campylobacteras a serious threat to U.S. public health due to high community burden, increased transmissibility, and limited treatability. The National Antimicrobial Resistance Monitoring System (NARMS) plays an important role in surveillance of AMR bacterial pathogens in humans, food animals and retail meats. This study investigatedC.coliandC.jejunifrom live food animals, poultry carcasses at production, and retail meat in North Carolina between January 2018-December 2019. Whole genome sequencing and bioinformatics were used for phenotypic and genotypic characterization to compare AMR profiles, virulence factors associated with Guillain-Barré Syndrome (GBS) (neuABCandcst-IIorcst-III), and phylogenic linkage between 541Campylobacterisolates (C.colin = 343,C.jejunin = 198). Overall, 90.4% (489/541)Campylobacterisolates tested positive for AMR genes, while 43% (233/541) carried resistance genes for three or more antibiotic classes and were classified molecularly multidrug resistant. AMR gene frequencies were highest against tetracyclines (64.3%), beta-lactams (63.6%), aminoglycosides (38.6%), macrolides (34.8%), quinolones (24.4%), lincosamides (13.5%), and streptothricins (5%). A total of 57.6% (114/198)C.jejunicarried GBS virulence factors, while threeC.colicarried theC.jejuni-like lipooligosaccharide locus,neuABCand cst-II. Further evidence ofC.coliandC.jejuniinterspecies genomic exchange was observed in identical multilocus sequence typing, shared sequence type (ST) 7818 clonal complex 828, and identical species-indicator genesmapA,ceuE, andhipO. There was a significant increase in novel STs from 2018 to 2019 (2 in 2018 and 21 in 2019, p<0.002), illustrating variableCampylobactergenomes within food animal production. Introgression betweenC.coliandC.jejunimay aid pathogen adaption, lead to higher AMR and increaseCampylobacterpersistence in food processing. Future studies should further characterize interspecies gene transfer and evolutionary trends in food animal production to track evolving risks to public health.