Dietary Patterns Are Associated with Serum Metabolite Patterns and Their Association Is Influenced by Gut Bacteria among Older German Adults

Although dietary intakes and dietary intake patterns (DPs) have been associated with single metabolites, it is unclear whether DPs are also reflected in specific metabolite patterns (MPs). Moreover, the influence of groups of gut bacteria on the relationship between DPs and MPs is underexplored. We...

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Bibliographic Details
Published in:The Journal of nutrition 2020-01, Vol.150 (1), p.149-158
Main Authors: Oluwagbemigun, Kolade, Foerster, Jana, Watkins, Claire, Fouhy, Fiona, Stanton, Catherine, Bergmann, Manuela M, Boeing, Heiner, Nöthlings, Ute
Format: Article
Language:English
Subjects:
Adult
Adults
Aged
Amino acids
Bacteria
Biomarkers
Biomarkers - blood
Bread
Cross-Sectional Studies
DataSHIELD
Diet
Dietary intake
dietary intake patterns
Edible oils
Fatty acids
Feeding Behavior
Female
Food - classification
Food intake
Gastrointestinal Microbiome
Gene sequencing
gut bacteria compositional patterns
Humans
Male
Margarine
Meat
Metabolites
Middle Aged
Nutrition
Nutritional Epidemiology
Oils & fats
rRNA 16S
serum metabolite patterns
Statistical models
Tea
treelet transform analysis
Vegetable oils
Vegetables
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Summary:Although dietary intakes and dietary intake patterns (DPs) have been associated with single metabolites, it is unclear whether DPs are also reflected in specific metabolite patterns (MPs). Moreover, the influence of groups of gut bacteria on the relationship between DPs and MPs is underexplored. We aimed to investigate the association of DPs and serum MPs and also the modifying effect of the gut bacteria compositional patterns (BCPs). This is a cross-sectional investigation among 225 individuals (median age: 63 y; 53% women) from the European Prospective Investigation into Cancer and Nutrition study. Dietary intakes were assessed by three 24-h dietary recalls, gut bacteria composition was quantified by 16S rRNA gene sequencing, and the serum metabolome was profiled by an untargeted approach. We identified DPs and BCPs by the treelet transform analysis. We modeled associations between DPs and 8 previously published MPs and the modifying effect of BCPs by fitting generalized linear models using DataSHIELD R. We identified 5 DPs and 7 BCPs. The “bread, margarine, and processed meat” and “fruiting vegetables and vegetable oils” DPs were positively associated with the “amino acids” (β = 0.35; 95% CI: 0.02, 0.69;P = 0.03) and “fatty acids” MPs (β = 0.45; 95% CI: 0.16, 0.74;P= 0.01), respectively. The “tea and miscellaneous” was inversely associated with the “amino acids” (β = –0.28; 95% CI: –0.52, –0.05;P = 0.02) and “amino acid derivatives” MPs (β = –0.21; 95% CI: –0.39, –0.02;P = 0.03). One BCP negatively modified the association between the “bread, margarine, and processed meat” DP and the “amino acids” MP (P–interaction = 0.01). In older German adults, DPs are reflected in MPs, and the gut bacteria attenuate 1 DP–MP association. These MPs should be explored as biomarkers of these jointly consumed foods while taking into account a potentially modifying role of the gut bacteria.
ISSN:0022-3166
1541-6100
DOI:10.1093/jn/nxz194