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Gene flux and acid-imposed selection are the main drivers of antimicrobial resistance in broiler chicks infected with Salmonella enterica serovar Heidelberg


Salmonella enterica serovar Heidelberg (SH) is one of the prolific serovars causing poultry-associated food-borne illness in the world. Their ability to cause invasive infections and their promiscuity to plasmids that confer multidrug resistance to antibiotics of human health importance makes them a public health threat. Although, horizontal gene transfer (HGT) is recognized as the major mechanism used by Salmonella for acquiring antimicrobial resistance (AR) and virulence genes, the biology behind acquisition of new genes in SH is still unknown.

In this study, we show that one day old broiler chicks challenged orally or via the cloaca with an antibiotic susceptible SH strain and raised without antibiotics carried susceptible and multidrug resistance SH strains 14 days after challenge. SH infection perturbed the bacterial community of broiler chicks and orally challenged chicks acquired AR at a higher rate than chicks challenged through the cloaca.

Furthermore, SH strains lost and gained new genes, while some inverted their chromosome after colonizing the gut of broiler chicks. The acquisition of IncI1 plasmid multilocus sequence type 26 (pST26) from commensal Escherichia coli population present in the gut of broiler chicks conferred multidrug resistance phenotype to SH recipients and carriage of pST26 increased the fitness of SH under acidic selection pressure.

Our results suggest that HGT shapes the evolution of AR in SH and that antibiotic use reduction alone is insufficient to limit AR plasmid transfer from commensal bacteria to Salmonella.

Authors: Adelumola Oladeine, Zaid Abdo, Maximilian O Press, Kimberly Cook, Nelson A Cox, Benjamin Zwirzitz, Reed Woyda, Steven M Lakin, Jesse C Thomas IV, Torey Looft, Douglas E Cosby, Arthur Hinton Jr., Jean Guard, Eric Line, Michael J Rothrock, Mark E. Berrang, Kyler Herrington, George Zock, Jodie Plumblee Lawrence, Denice Cudnik, Sandra House, Kimberly Ingram, Leah Lariscy, Martin Wagner, Samuel E. Aggrey, Lilong Chai, Casey Ritz

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