ROBERT, C.; BUISSON, C.; LAUGERETTE, F.; ABROUS, H.; RAINTEAU, D.; HUMBERT, L.; VANDE WEGHE, J.; MEUGNIER, E.; LOIZON, E.; CAILLET, F.; VAN DORSSELAER, B.; URDACI, Maria C.; VAYSSE, C.; MICHALSKI, M. C.

doi:10.1002/mnfr.202001068

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ROBERT, C.
Chimie et Biologie des Membranes et des Nanoobjets [CBMN]

BUISSON, C.

LAUGERETTE, F.

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Molecular nutrition & food research. 2021, vol. 65, n° 9

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Scope Synthetic emulsifiers have recently been shown to promote metabolic syndrome and considerably alter gut microbiota. Yet, data are lacking regarding the effects of natural emulsifiers, such as plant lecithins rich in essential alpha-linolenic acid (ALA), on gut and metabolic health. Methods and Results For 5 days, male Swiss mice are fed diets containing similar amounts of ALA and 0, 1, 3, or 10% rapeseed lecithin (RL) or 10% soy lecithin (SL). Following an overnight fast, they are force-fed the same oil mixture and euthanized after 90 minutes. The consumption of lecithin significantly increased fecal levels of the Clostridium leptum group (p = 0.0004), regardless of origin or dose, without altering hepatic or intestinal expression of genes of lipid metabolism. 10%-RL increased ALA abundance in plasma triacylglycerols at 90 minutes, reduced cecal bile acid hydrophobicity, and increased their sulfatation, as demonstrated by the increased hepatic RNA expression of Sult2a1 (p = 0.037) and cecal cholic acid-7 sulfate (CA-7S) concentration (p = 0.05) versus 0%-lecithin. Conclusion After only 5 days, nutritional doses of RL and SL modified gut bacteria in mice, by specifically increasing C. leptum group. RL also increased postprandial ALA abundance and induced beneficial modifications of the bile acid profile. ALA-rich lecithins, especially RL, may then appear as promising natural emulsifiers.< Réduire

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absorption

food additive

intestine

nutrition

phospholipid

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Impact of Rapeseed and Soy Lecithin on Postprandial Lipid Metabolism, Bile Acid Profile, and Gut Bacteria in Mice

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