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Metabolic response of intestinal microbiota to guar gum consumption

Claudia Barber, Carlos Sabater, Francisco Guarner, Abelardo Margollés, Fernando Azpiroz

2023Frontiers in Nutrition13 citationsDOIOpen Access PDF

Abstract

Background Guar gum is used extensively as a thickening agent in food, but it remains uncertain whether and to what extent it is fermented by colonic microbiota and whether it has microbiota modulatory properties. Aim To determine the metabolic response of intestinal microbiota to guar gum consumption, specifically, the extent of initial fermentation and subsequent adaptation. Methods Single-center, single arm, open label, proof-of-concept study testing the effect of guar gum on microbiota metabolism and adaptation. Healthy male subjects ( n = 12) were administered gum guar (8 g/day) for 18 days. Outcomes were measured before, at initial and late administration: (a) anal gas evacuations (number/day); (b) digestive sensations (daily scales); and (c) fecal gut microbiota taxonomy and metabolic functions by shotgun sequencing. Results At initial consumption, guar gum induced a transient increase in anal gas evacuations and digestive sensations; gas evacuation completely reverted upon continuous administration, whereas sensations reverted only in part. Guar gum induced moderate changes in human microbiota composition at both taxonomic and functional levels. Positive associations between effects on microbiota (proliferation of Agathobaculum butyriciproducens and Lachnospira pectinoschiza ) and hedonic sensations were detected. Conclusion Guar gum is metabolized by intestinal microbiota, and, upon continuous consumption, induces a selective adaptation of microbial taxonomy and function. These data highlight the potential interest of guar gum for novel prebiotic ingredient formulation.

Topics & Concepts

Guar gumPrebioticGuarGut floraFood scienceBiologyFermentationProbioticBiochemistryBacteriaGeneticsPolysaccharides Composition and ApplicationsFood composition and propertiesPolysaccharides and Plant Cell Walls