Feed Restriction Modifies Intestinal Microbiota-Host Mucosal Networking in Chickens Divergent in Residual Feed Intake

Differences in chickens' feed intake may be the underlying factor influencing feed-efficiency (FE)-associated variation in intestinal microbiota and physiology. In chickens eating the same amount of feed, quantitative feed restriction may create similar intestinal conditions and help clarify th...

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Bibliographic Details
Published in:mSystems 2019-01, Vol.4 (1)
Main Authors: Metzler-Zebeli, Barbara U, Siegerstetter, Sina-Catherine, Magowan, Elizabeth, Lawlor, Peadar G, Petri, Renée M, O Connell, Niamh E, Zebeli, Qendrim
Format: Article
Language:English
Subjects:
Adaptations
Applied and Environmental Science
Birds
Cattle
Cecum
chicken
Efficiency
Fatty acids
feed intake level
Feeding
Feeds
Goblet cells
Immune response
Innate immunity
intestinal barrier function
intestinal microbiota
Intestinal microflora
intestinal physiology
Intestine
Microbiota
Mucosa
Multiculturalism & pluralism
Nutrient availability
Nutrient uptake
Pancreas
Permeability
Poultry
Research Article
residual feed intake
Taxonomy
Trends
Variance analysis
Veterinary medicine
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Summary:Differences in chickens' feed intake may be the underlying factor influencing feed-efficiency (FE)-associated variation in intestinal microbiota and physiology. In chickens eating the same amount of feed, quantitative feed restriction may create similar intestinal conditions and help clarify this cause-and-effect relationship. This study investigated the effect of versus restrictive feeding (85% of ) on ileal and cecal microbiota, concentrations of short-chain fatty acids, visceral organ size, intestinal morphology, permeability, and expression of genes related to nutrient uptake, barrier function, and innate immune response in broiler chickens with divergent residual feed intake (RFI; metric for FE). On day 30 posthatch, 28 low-RFI (good FE) and 29 high-RFI (poor FE) chickens across both feeding-level groups ( = 112) were selected. Supervised multigroup data integration and relevance network analyses showed that especially (negative) in ileal digesta, (positive) in cecal digesta, and (positive) in both intestinal segments depended on chicken's feed intake, whereas the level of in cecal digesta was most discriminative for high RFI. Moreover, shallower crypts and fewer goblet cells in ceca indicated host-related energy-saving mechanisms with low RFI, whereas greater tissue resistance suggested a stronger jejunal barrier function in low-RFI chickens. Values corresponding to feed intake level × RFI interactions indicated larger pancreas and lower levels of ileal and cecal short-chain fatty acids in restrictively fed high-RFI chickens than in the other 3 groups, suggesting host physiological adaptations to support greater energy and nutrient needs of high-RFI chickens compensating for the restricted feeding. The impact of the FE-associated differences in feed intake on intestinal bacterial and host physiological parameters has so far not been clarified. Understanding the underlying principles is essential for the development of cost-effective strategies to improve FE in chicken production. Under conditions of quantitative feed restriction, low- and high-RFI chickens ate the same amount of feed. Therefore, this research helps in distinguishing intestinal bacterial taxa and functions that were highly reliant on feed intake from those that were associated with physiological adaptations to RFI-associated differences in host nutritional needs and intestinal nutrient availability. This work provides a background for further research to assess manipulation of the int
ISSN:2379-5077
2379-5077
DOI:10.1128/mSystems.00261-18