Effect of chronic and acute enterotoxigenic E. coli challenge on growth performance, intestinal inflammation, microbiome, and metabolome of weaned piglets

Justin X. Boeckman, Sarah Sprayberry, Abby M. Korn, Jan S. Suchodolski, Chad Paulk, Kenneth Genovese, Raquel R. Rech, Paula R. Giaretta, Anna K. Blick, Todd Callaway, Jason J. Gill

Research output: Contribution to journalArticlepeer-review

15 Scopus citations

Abstract

Post-weaning enteropathies in swine caused by pathogenic E. coli, such as post-weaning diarrhea (PWD) or edema disease (ED), remain a significant problem for the swine industry. Reduction in the use of antibiotics over concerns of antibiotic resistance and public health concerns, necessitate the evaluation of effective antibiotic alternatives to prevent significant loss of livestock and/or reductions in swine growth performance. For this purpose, an appropriate piglet model of pathogenic E. coli enteropathy is required. In this study, we attempted to induce clinical signs of post-weaning disease in a piglet model using a one-time acute or lower daily chronic dose of a pathogenic E. coli strain containing genes for both heat stable and labile toxins, as well as Shiga toxin. The induced disease state was monitored by determining fecal shedding and colonization of the challenge strain, animal growth performance, cytokine levels, fecal calprotectin, histology, fecal metabolomics, and fecal microbiome shifts. The most informative analyses were colonization and shedding of the pathogen, serum cytokines, metabolomics, and targeted metagenomics to determine dysbiosis. Histopathological changes of the gastrointestinal (GI) tract and tight junction leakage as measured by fecal calprotectin concentrations were not observed. Chronic dosing was similar to the acute regimen suggesting that a high dose of pathogen, as used in many studies, may not be necessary. The piglet disease model presented here can be used to evaluate alternative PWD treatment options.

Original languageEnglish
Article number5024
JournalScientific Reports
Volume12
Issue number1
DOIs
StatePublished - Dec 2022

Bibliographical note

Publisher Copyright:
© 2022, The Author(s).

Funding

This work was supported, in whole or in part, by the Bill & Melinda Gates Foundation [OPP1139800]. Under the grant conditions of the Foundation, a Creative Commons Attribution 4.0 Generic License has already been assigned to the Author Accepted Manuscript version that might arise from this submission. This work was additionally supported by Texas A&M AgriLife Research. The authors would like to thank Amanda Blake and So Young Park for assistance with qPCR. We would also like to thank Justin Leavitt, Jacob Chamblee, Jacob Lancaster, Lauren Lessor, Ruoyan Luo, Shayna Smith, Caitlin Older, Jeann Leal de Araujo, Kara Dunmire, Logan Joiner, and Lily Hernandez for their assistance with animal necropsy and sample preparation.

FundersFunder number
NIH Office of the DirectorT35OD010991
Bill and Melinda Gates FoundationOPP1139800
Texas AgriLife Research

    ASJC Scopus subject areas

    • General

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