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Literature DB >> 34163075

Evaluating microbiome-directed fibre snacks in gnotobiotic mice and humans.

Omar Delannoy-Bruno^1,2, Chandani Desai^1,2, Arjun S Raman^1,2,3, Robert Y Chen^1,2, Matthew C Hibberd^1,2,3, Jiye Cheng^1,2,3, Nathan Han^1,2, Juan J Castillo⁴, Garret Couture⁴, Carlito B Lebrilla⁴, Ruteja A Barve⁵, Vincent Lombard⁶, Bernard Henrissat^6,7, Semen A Leyn⁸, Dmitry A Rodionov^8,9, Andrei L Osterman⁸, David K Hayashi¹⁰, Alexandra Meynier¹⁰, Sophie Vinoy¹⁰, Kyleigh Kirbach¹¹, Tara Wilmot¹¹, Andrew C Heath¹², Samuel Klein¹¹, Michael J Barratt^1,2,3, Jeffrey I Gordon^13,14,15.

Abstract

Changing food preferences brought about by westernization that have deleterious health effects1,2-combined with myriad forces that are contributing to increased food insecurity-are catalysing efforts to identify more nutritious and affordable foods3. Consumption of dietary fibre can help to prevent cardiovascular disease, type 2 diabetes and obesity4-6. A substantial number of reports have explored the effects of dietary fibre on the gut microbial community7-9. However, the microbiome is complex, dynamic and exhibits considerable intra- and interpersonal variation in its composition and functions. The large number of potential interactions between the components of the microbiome makes it challenging to define the mechanisms by which food ingredients affect community properties. Here we address the question of how foods containing different fibre preparations can be designed to alter functions associated with specific components of the microbiome. Because a marked increase in snack consumption is associated with westernization, we formulated snack prototypes using plant fibres from different sustainable sources that targeted distinct features of the gut microbiomes of individuals with obesity when transplanted into gnotobiotic mice. We used these snacks to supplement controlled diets that were consumed by adult individuals with obesity or who were overweight. Fibre-specific changes in their microbiomes were linked to changes in their plasma proteomes indicative of an altered physiological state.

Entities: Chemical

Mesh：

Substances：

Year: 2021 PMID： 34163075 PMCID： PMC8324079 DOI： 10.1038/s41586-021-03671-4

Source DB: PubMed Journal: Nature ISSN： 0028-0836 Impact factor: 49.962

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Review 4. The potential of tailoring the gut microbiome to prevent and treat cardiometabolic disease.

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5. Multi-Omic Analyses Reveal Bifidogenic Effect and Metabolomic Shifts in Healthy Human Cohort Supplemented With a Prebiotic Dietary Fiber Blend.

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8. An approach for evaluating the effects of dietary fiber polysaccharides on the human gut microbiome and plasma proteome.

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9. Targeted prebiotics alter the obese gut microbiome in humans.

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10. Achieving Health Equity Through Digestive Diseases Research and Scientific Workforce Diversity.

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