Original XPC Effect on Typhimurium and Cecal Microbiota from Three Different Ages of Broiler Chickens When Incubated in an Anaerobic Culture System.

TitleOriginal XPC Effect on Typhimurium and Cecal Microbiota from Three Different Ages of Broiler Chickens When Incubated in an Anaerobic Culture System.
Publication TypeJournal Article
Year of Publication2017
AuthorsPark, SHong, Kim, SAe, Lee, SIn, Rubinelli, PM, Roto, SM, Pavlidis, HO, McIntyre, DR, Ricke, SC
JournalFront Microbiol
Volume8
Pagination1070
Date Published2017
ISSN1664-302X
Abstract

Feed supplements are utilized in the poultry industry as a means for improving growth performance and reducing pathogens. The aim of the present study was to evaluate the effects of Diamond V Original XPC (XPC, a fermented product generated from yeast cultures) on Typhimurium ST 97 along with its potential for modulation of the cecal microbiota by using an anaerobic mixed culture assay. Cecal slurries obtained from three broiler chickens at each of three sampling ages (14, 28, and 42 days) were generated and exposed to a 24 h pre-incubation period with the various treatments: XPC (1% XPC, ceca, and feeds), CO (ceca only), and NC (negative control) group consisting of ceca and feeds. The XPC, CO, and NC were each challenged with Typhimurium and subsequently plated on selective media at 0, 24, and 48 h. Plating results indicated that the XPC treatment significantly reduced the survival of Typhimurium at the 24 h plating time point for both the 28 and 42 days bird sampling ages, while Typhimurium reduction in the NC appeared to eventually reach the same population survival level at the 48 h plating time point. For microbiome analysis, Trial 1 revealed that XPC, CO, and NC groups exhibited a similar pattern of taxa summary. However, more Bacteroidetes were observed in the CO group at 24 and 48 h. There were no significant differences ( > 0.05) in alpha diversity among samples based on day, hour and treatment. For beta diversity analysis, a pattern shift was observed when samples clustered according to sampling hour. In Trial 2, both XPC and NC groups exhibited the highest Firmicutes level at 0 h but the Bacteroidetes group became dominant at 6 h. Complexity of alpha diversity was increased in the initial contents from older birds and became less complex after 6 h of incubation. Beta diversity analysis was clustered as a function of treatment NC and XPC groups and by individual hours including 6, 12, 24, and 48 h. Overall, addition of XPC influenced microbiome diversity in a similar fashion to the profile of the NC group.

DOI10.3389/fmicb.2017.01070
Alternate JournalFront Microbiol
PubMed ID28659891
PubMed Central IDPMC5468444