Ecologically robust gut environment associated with personalized metabolic responses in a Japanese cohort
Chiharu Ishii, Miyuki Suzuki, Shinnosuke Murakami, Isaiah Song, Yoshiomi Soejima, Morimasa Kato, Shinji Fukuda

TL;DR
This study shows that the gut environment of individuals remains stable despite daily diet changes, suggesting that gut profiles are personalized and not easily influenced by short-term dietary fluctuations.
Contribution
The study demonstrates the intra-individual stability of the gut metabolome and microbiome despite dietary variations, highlighting their robustness and personalization.
Findings
Fecal metabolome and microbiome profiles are unique and stable for most individuals despite daily dietary fluctuations.
Random forest classification accurately predicted individual identity based on metabolome profiles.
Food-metabolite and food-microbiome relationships are highly personalized.
Abstract
The gut microbiota produces numerous metabolites that affect host physiology. However, the effects of daily diet on human fecal metabolome profiles and their robustness are not well understood, and examinations of intra-individual stability over multiple time points are limited. Here, we investigated the robustness of the human intestinal environment through fecal metabolome and microbiome profiling in response to daily dietary fluctuations. We analyzed 176 fecal samples from 25 healthy Japanese individuals subjected to three dietary regimens, including heterogeneous and homogeneous diets. Fecal metabolome and microbiome profiles were unique to each individual. Further in-depth analyses of seven of these individuals showed that these profiles were stable despite daily dietary fluctuations in six individuals. In addition, random forest classification successfully predicted each subject’s…
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Taxonomy
TopicsGut microbiota and health · Metabolomics and Mass Spectrometry Studies · Epigenetics and DNA Methylation
