Virulence factors and antimicrobial resistance profiles of Campylobacter isolates recovered from consecutively reused broiler litter

Authors: WOYDA, REED - Colorado State University; Oladeinde, Adelumola - Ade; Endale, Dinku; Strickland, Timothy; Plumblee Lawrence, Jodie; ABDO, ZAID - Colorado State University

Submitted to: Microbiology Spectrum
Publication Type: Peer Reviewed Journal
Publication Acceptance Date: 9/19/2023
Publication Date: 10/26/2023
Citation: Woyda, R., Oladeinde, A.A., Endale, D.M., Strickland, T.C., Plumblee Lawrence, J.R., Abdo, Z. 2023. Virulence factors and antimicrobial resistance profiles of Campylobacter isolates recovered from consecutively reused broiler litter. Microbiology Spectrum. 11(6):1-18.

Interpretive Summary: Campylobacter is a leading cause of foodborne illness in the United States due to the consumption of contaminated food products or from mishandling of food products, often associated with chicken meat. Campylobacter is common in the microbiota of avian and mammalian gut; however, the acquisition of antimicrobial resistance genes and virulence factors may result in strains that pose a significant threat to public health. Although there are studies that have investigated the genetic diversity of Campylobacter strains isolated from post-harvest chicken samples, there is limited data on the genomic characteristics of isolates recovered from pre-harvest broiler production. In this study, we show that Campylobacter jejuni and Campylobacter coli that differ in their carriage of antimicrobial resistance and virulence factors may differ in their ability to evade host defense mechanisms and colonize the gut of chickens and humans.

Technical Abstract: Campylobacter infections are a leading cause of bacterial diarrhea in humans globally. Infections are due to consumption of contaminated food products and are highly associated with chicken meat, with chickens being an important reservoir for Campylobacter. Here, we characterized the genetic diversity of Campylobacter species detected in broiler chicken litter over three consecutive flocks and determined their antimicrobial resistance and virulence factor profiles. Antimicrobial susceptibility testing and whole genome sequencing were performed on Campylobacter jejuni (n = 39) and Campylobacter coli (n = 5) isolates. All C. jejuni isolates were susceptible to all antibiotics tested while C. coli (n = 4) were resistant to only tetracycline and harbored the tetracycline-resistant ribosomal protection protein (TetO). Virulence factors differed within and across grow houses but were explained by the isolates’ flock cohort, species and multilocus sequence type. Virulence factors involved in the ability to invade and colonize host tissues and evade host defenses were absent from flock cohort 3 C. jejuni isolates as compared to flock 1 and 2 isolates. Our results show that virulence factors and antimicrobial resistance genes differed by the isolates’ multilocus sequence type and by the flock cohort they were present in. These data suggest that the house environment and litter management practices performed imposed selective pressures on antimicrobial resistance genes and virulence factors. In particular, the absence of key virulence factors within the final flock cohort 3 isolates suggests litter reuse selected for Campylobacter strains that are less likely to colonize the chicken host.