A novel polyphenol-rich combination of 5 plant extracts prevents high-fat diet-induced body weight gain by regulating intestinal macronutrient absorption in mice

Global prevalence of obesity and type 2 diabetes are rapidly increasing to pandemic proportions. A novel supplement composed of 5 plant extracts from olive leaf, bilberry, artichoke, chrysanthellum, and black pepper was designed to prevent type 2 diabetes development in people at risk. It was previo...

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Published in:Nutrition research (New York, N.Y.) N.Y.), 2023-10, Vol.118, p.70-84
Main Authors: Chavanelle, Vivien, Langhi, Cédric, Michaux, Arnaud, Ripoche, Doriane, Otero, Yolanda F., Joubioux, Florian Le, Maugard, Thierry, Guigas, Bruno, Giera, Martin, Peltier, Sébastien, Sirvent, Pascal
Format: Article
Language:English
Subjects:
absorption
anti-obesity effects
artichokes
at-risk population
bilberries
black pepper
body weight changes
Chemical Sciences
digestive tract
energy
excretion
fatty acid composition
fatty acids
free fatty acids
glucose
glycemic control
high fat diet
homeostasis
jejunum
leaves
Life Sciences
mechanism of action
noninsulin-dependent diabetes mellitus
nutrition research
obesity
olives
pandemic
rodents
triacylglycerols
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Summary:Global prevalence of obesity and type 2 diabetes are rapidly increasing to pandemic proportions. A novel supplement composed of 5 plant extracts from olive leaf, bilberry, artichoke, chrysanthellum, and black pepper was designed to prevent type 2 diabetes development in people at risk. It was previously shown to improve body weight and glucose control in preclinical rodent models, with these effects being accompanied by increased fecal energy excretion and in vitro inhibition of several digestive enzymes. Thus, we hypothesized that, in mice fed a high-fat diet (HFD), a single dose of this botanical supplementation would decrease the responses to oral fat and carbohydrate tolerance tests, and that chronic supplementation would result in increased fecal triglyceride content. We showed that acute administration in HFD-fed mice (1.452 g/kg body weight) markedly reduced circulating triglycerides following an oral lipid gavage, whereas glycemic responses to various carbohydrate tests were only mildly affected. When incorporated into the food (2.5%) of HFD-fed mice, chronic supplementation prevented body weight gain and improved glucose homeostasis and lipid tolerance. Fecal free fatty acid content, but not triglyceride, was significantly increased in supplemented animals, suggesting reduced lipid absorption in the digestive tract. Congruently, this botanical supplementation downregulated several genes associated with fatty acid transport whose expression was increased by HFD, principally in the jejunum. This study provides novel insights as for the mode of action behind the antiobesity effect of this plant-based supplementation, in HFD-fed mice.
ISSN:0271-5317
1879-0739
DOI:10.1016/j.nutres.2023.07.010