The role of the gut microbiome in the association between habitual anthocyanin intake and visceral abdominal fat in population-level analysis

Flavonoid intake modifies the composition of the gut microbiome, which contributes to the metabolism of flavonoids. Few studies have examined the contribution of the gut microbiome to the health benefits associated with flavonoid intake. We aimed to examine associations between habitual intakes of f...

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Bibliographic Details
Published in:The American journal of clinical nutrition 2020-02, Vol.111 (2), p.340-350
Main Authors: Jennings, Amy, Koch, Manja, Jensen, Majken K, Bang, Corinna, Kassubek, Jan, Müller, Hans-Peter, Nöthlings, Ute, Franke, Andre, Lieb, Wolfgang, Cassidy, Aedín
Format: Article
Language:English
Subjects:
abdominal adipose tissue
Abundance
Adipose tissue
Adult
Aged
Aged, 80 and over
Anthocyanins
Anthocyanins - administration & dosage
Bacteria - classification
Clostridium
Composition
Digestive system
Female
Flavonoids
Food
Food intake
Gastrointestinal Microbiome
gut microbiota
Humans
Intakes
Intestinal microflora
Intra-Abdominal Fat
Magnetic resonance imaging
Male
Men
Metabolism
microbial diversity
Microbiomes
Microbiota
Microorganisms
Middle Aged
Original Research Communications
rRNA 16S
Ruminococcaceae
subcutaneous fat
Subcutaneous Fat, Abdominal - metabolism
visceral fat
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Summary:Flavonoid intake modifies the composition of the gut microbiome, which contributes to the metabolism of flavonoids. Few studies have examined the contribution of the gut microbiome to the health benefits associated with flavonoid intake. We aimed to examine associations between habitual intakes of flavonoid subclasses and MRI-determined visceral (VAT) and subcutaneous (SAT) adipose tissue. Uniquely, we also identified associations between the aforementioned measurements and gut microbiome composition sequenced from 16S ribosomal RNA genes. We undertook cross-sectional analyses of 618 men and women (n = 368 male), aged 25–83 y, from the PopGen cohort. Higher intake of anthocyanins was associated with lower amounts of VAT [tertile (T)3-T1: −0.49 dm3; β: −8.9%; 95% CI: −16.2%, −1.1%; P = 0.03] and VAT:SAT ratio (T3-T1: −0.04; β: −7.1%; 95% CI: −13.5%, −0.3%; P = 0.03). Higher intakes of anthocyanin-rich foods were also inversely associated with VAT [quantile (Q)4-Q1: −0.39 dm3; β: −9.9%; 95% CI: −17.4%, −1.6%; P = 0.02] and VAT:SAT ratio (Q4-Q1: −0.04; β: −6.5%; 95% CI: −13.3%, −0.9%; P = 0.03). Participants with the highest intakes of anthocyanin-rich foods also had higher microbial diversity (Q4-Q1: β: 0.18; 95% CI: 0.06, 0.31; P < 0.01), higher abundances of Clostridiales (Q4-Q1: β: 449; 95% CI: 96.3, 801; P = 0.04) and Ruminococcaceae (Q4-Q1: β: 313; 95% CI: 33.6, 591; P = 0.04), and lower abundance of Clostridium XIVa (Q4-Q1: β: −41.1; 95% CI: −72.4, −9.8; P = 0.04). Participants with the highest microbial diversity, abundances of Clostridiales and Ruminococcaceae, and lower abundance of Clostridium XIVa had lower amounts of VAT. Up to 18.5% of the association between intake of anthocyanin-rich foods and VAT could be explained by the gut microbiome. These novel data suggest that higher microbial diversity and abundance of specific taxa in the Clostridiales order may contribute to the association between higher intake of anthocyanins and lower abdominal adipose tissue.
ISSN:0002-9165
1938-3207
1938-3207
DOI:10.1093/ajcn/nqz299