1. Dietary fatty acid profile influences circulating and tissue fatty acid ethanolamide concentrations in a tissue-specific manner in male Syrian hamsters.
- Author
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Sihag J and Jones PJH
- Subjects
- Acylation, Adipose Tissue metabolism, Animal Feed analysis, Animals, Brain metabolism, Cricetinae blood, Cricetinae metabolism, Endocannabinoids analysis, Endocannabinoids blood, Endocannabinoids metabolism, Energy Metabolism, Ethanolamines analysis, Ethanolamines blood, Fatty Acids analysis, Fatty Acids blood, Intestinal Mucosa metabolism, Male, Mesocricetus, Myocardium metabolism, Oleic Acids analysis, Oleic Acids blood, Oleic Acids metabolism, Dietary Fats metabolism, Ethanolamines metabolism, Fatty Acids metabolism
- Abstract
Background: The discovery of N‑acylethanolamines (NAEs) has prompted an increase in research aimed at understanding their biological roles including regulation of appetite and energy metabolism. However, a knowledge gap remains to understand the effect of dietary components on NAE levels, in particular, heterogeneity in dietary fatty acid (DFA) profile, on NAE levels across various organs., Objective: To identify and elucidate the impact of diet on NAE levels in seven different tissues/organs of male hamsters, with the hypothesis that DFA will act as precursors for NAE synthesis in golden Syrian male hamsters., Method: A two-month feeding trial was performed, wherein hamsters were fed various dietary oil blends with different composition of 18-C fatty acid (FA)., Results: DFA directly influences tissue FA and NAE levels. After C18:1n9-enriched dietary treatments, marked increases were observed in duodenal C18:1n9 and oleoylethanolamide (OEA) concentrations. Among all tissues; adipose tissue brown, adipose tissue white, brain, heart, intestine-duodenum, intestine-jejunum, and liver, a negative correlation was observed between gut-brain OEA concentrations and body weight., Conclusion: DFA composition influences FA and NAE levels across all tissues, leading to significant shifts in intestinal-brain OEA concentrations. The endogenously synthesized increased OEA levels in these tissues enable the gut-brain-interrelationship. Henceforth, we summarize that the brain transmits anorexic properties mediated via neuronal signalling, which may contribute to the maintenance of healthy body weight. Thus, the benefits of OEA can be enhanced by the inclusion of C18:1n9-enriched diets, pointing to the possible nutritional use of this naturally occurring bioactive lipid-amide in the management of obesity., (Copyright © 2019. Published by Elsevier B.V.)
- Published
- 2019
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