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Review
. 2018 Jun 18;6(2):55.
doi: 10.3390/microorganisms6020055.

Mucus-Pathogen Interactions in the Gastrointestinal Tract of Farmed Animals

Macarena P Quintana-Hayashi  1 Médea Padra  2 János Tamás Padra  3 John Benktander  4 Sara K Lindén  5
Affiliations
Review

Mucus-Pathogen Interactions in the Gastrointestinal Tract of Farmed Animals

Macarena P Quintana-Hayashi et al. Microorganisms. .

Abstract

Gastrointestinal infections cause significant challenges and economic losses in animal husbandry. As pathogens becoming resistant to antibiotics are a growing concern worldwide, alternative strategies to treat infections in farmed animals are necessary in order to decrease the risk to human health and increase animal health and productivity. Mucosal surfaces are the most common route used by pathogens to enter the body. The mucosal surface that lines the gastrointestinal tract is covered by a continuously secreted mucus layer that protects the epithelial surface. The mucus layer is the first barrier the pathogen must overcome for successful colonization, and is mainly composed of densely glycosylated proteins called mucins. The vast array of carbohydrate structures present on the mucins provide an important setting for host-pathogen interactions. This review summarizes the current knowledge on gastrointestinal mucins and their role during infections in farmed animals. We examine the interactions between mucins and animal pathogens, with a focus on how pathogenic bacteria can modify the mucin environment in the gut, and how this in turn affects pathogen adhesion and growth. Finally, we discuss analytical challenges and complexities of the mucus-based defense, as well as its potential to control infections in farmed animals.

Keywords: O-glycosylation; bacteria; farm animal; host-pathogen interaction; intestine; mucin; mucus; parasite; stomach.

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Conflict of interest statement

The authors declare no conflicts of interest.

References

    1. Kent M.L. Marine netpen farming leads to infections with some unusual parasites. Int. J. Parasitol. 2000;30:321–326. doi: 10.1016/S0020-7519(00)00018-7. - DOI - PubMed
    1. Lafferty K.D., Harvell C.D., Conrad J.M., Friedman C.S., Kent M.L., Kuris A.M., Powell E.N., Rondeau D., Saksida S.M. Infectious diseases affect marine fisheries and aquaculture economics. Ann. Rev. Mar. Sci. 2015;7:471–496. doi: 10.1146/annurev-marine-010814-015646. - DOI - PubMed
    1. Gast R.K., Shivaprasad H.L., Barrow P.A. Diseases of Poultry. 13th ed. Swayne, D.E., Ed. John Wiley & Sons, Ltd.; Hoboken, NJ, USA: 2013. Salmonella infections; pp. 675–736.
    1. Nolan L.K., Barnes H.J., Vaillancourt J.-P., Abdul-Aziz T., Logue C.M. Colibacillosis. In: Swayne D.E., editor. Diseases of Poultry. 13th ed. John Wiley & Sons, Ltd.; Hoboken, NJ, USA: 2013. pp. 751–805.
    1. Logue C.M., Songer J.G., Uzal F., Opengart K. Clostridial diseases. In: Swayne D.E., editor. Diseases of Poultry. 13th ed. John Wiley & Sons, Ltd.; Hoboken, NJ, USA: 2013. pp. 943–970.

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