Impact of Dietary Galacto-Oligosaccharide (GOS) on Chicken's Gut Microbiota, Mucosal Gene Expression, and Salmonella Colonization.

Rebecca-Ayme Hughes,Hosni M Hassan,Riawana A Ali,Matthew D Koci,Mary A Mendoza

doi:10.3389/fvets.2017.00192

Rebecca-Ayme Hughes, Hosni M Hassan + Show 3 more

Open Access

https://doi.org/10.3389/fvets.2017.00192

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Abstract

Preventing Salmonella colonization in young birds is key to reducing contamination of poultry products for human consumption (eggs and meat). While several Salmonella vaccines have been developed that are capable of yielding high systemic antibodies, it is not clear how effective these approaches are at controlling or preventing Salmonella colonization of the intestinal tract. Effective alternative control strategies are needed to help supplement the bird’s ability to prevent Salmonella colonization, specifically by making the cecum less hospitable to Salmonella. In this study, we investigated the effect of the prebiotic galacto-oligosaccharide (GOS) on the cecal microbiome and ultimately the carriage of Salmonella. Day-old pullet chicks were fed control diets or diets supplemented with GOS (1% w/w) and then challenged with a cocktail of Salmonella Typhimurium and Salmonella Enteritidis. Changes in cecal tonsil gene expression, cecal microbiome, and levels of cecal and extraintestinal Salmonella were assessed at 1, 4, 7, 12, and 27 days post infection. While the Salmonella counts were generally lower in the GOS-treated birds, the differences were not significantly different at the end of the experiment. However, these data demonstrated that treatment with the prebiotic GOS can modify both cecal tonsil gene expression and the cecal microbiome, suggesting that this type of treatment may be useful as a tool for altering the carriage of Salmonella in poultry.

Highlights

Salmonella is a leading cause of foodborne disease in humans with poultry acting as a major source of human infection [1]
This study aimed to investigate the response of young birds to treatment with a prebiotic GOS on the carriage of Salmonella, cecal tonsil relative gene expression levels of markers of the immune response, and the cecal microbiome
While SE and ST were detected in the cecum of both control and prebiotic, there was a difference in the number of positive birds between treatment groups; this was more apparent within the SE infection levels

Summary

Introduction

Salmonella is a leading cause of foodborne disease in humans with poultry acting as a major source of human infection [1]. Controlling Salmonella within poultry meat and egg production is critical to increase the safety of these products for human consumption. Salmonella infection in poultry is asymptomatic [2], so determining how young birds respond to Salmonella is important. Understanding their response will allow for the development of control methods that aid in the removal of Salmonella from poultry. While a number of Salmonella vaccines have been developed [3, 4], alternative control methods targeting Salmonella within the bird’s intestinal tract may provide an effective method for reducing intestinal colonization.

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