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Impacts of plant-based foods in ancestral hominin diets on the metabolism and function of gut microbiota in vitro

Impacts of plant-based foods in ancestral hominin diets on the metabolism and function of gut microbiota in vitro
Impacts of plant-based foods in ancestral hominin diets on the metabolism and function of gut microbiota in vitro

Ancestral human populations had diets containing more indigestible plant material than present-day diets in industrialized countries. One hypothesis for the rise in prevalence of obesity is that physiological mechanisms for controlling appetite evolved to match a diet with plant fiber content higher than that of present-day diets. We investigated how diet affects gut microbiota and colon cells by comparing human microbial communities with those from a primate that has an extreme plant-based diet, namely, the gelada baboon, which is a grazer. The effects of potato (high starch) versus grass (high lignin and cellulose) diets on human-derived versus gelada-derived fecal communities were compared in vitro. We especially focused on the production of short-chain fatty acids, which are hypothesized to be key metabolites influencing appetite regulation pathways. The results confirmed that diet has a major effect on bacterial numbers, short-chain fatty acid production, and the release of hormones involved in appetite suppression. The potato diet yielded greater production of short-chain fatty acids and hormone release than the grass diet, even in the gelada cultures, which we had expected should be better adapted to the grass diet. The strong effects of diet on hormone release could not be explained, however, solely by short-chain fatty acid concentrations. Nuclear magnetic resonance spectroscopy found changes in additional metabolites, including betaine and isoleucine, that might play key roles in inhibiting and stimulating appetite suppression pathways. Our study results indicate that a broader array of metabolites might be involved in triggering gut hormone release in humans than previously thought.

IMPORTANCE One theory for rising levels of obesity in western populations is that the body’s mechanisms for controlling appetite evolved to match ancestral diets with more low-energy plant foods. We investigated this idea by comparing the effects of diet on appetite suppression pathways via the use of gut bacterial communities from humans and gelada baboons, which are modern-day primates with an extreme diet of low-energy plant food, namely, grass. We found that diet does play a major role in affecting gut bacteria and the production of a hormone that suppresses appetite but not in the direction predicted by the ancestral diet hypothesis. Also, bacterial products were correlated with hormone release that were different from those normally thought to play this role. By comparing microbiota and diets outside the natural range for modern humans, we found a relationship between diet and appetite pathways that was more complex than previously hypothesized on the basis of more-controlled studies of the effects of single compounds.

Animal Feed, Animals, Bacteria/metabolism, Biodiversity, Biomass, Fatty Acids/biosynthesis, Gastrointestinal Tract/metabolism, Hominidae, Humans, Male, Metabolomics, Mice, Microbiota, Peptide YY/metabolism, Plants, Edible, Theropithecus
2150-7511
Frost, Gary S.
6a72e815-6bb1-45be-ae63-2d7aaebee3f6
Walton, Gemma E
a167f493-b3bf-4063-acdf-acdfa8c1137c
Swann, Jonathan R.
7c11a66b-f4b8-4dbf-aa17-ad8b0561b85c
Psichas, Arianna
d451b613-79a0-4cda-a637-407a821eac03
Costabile, Adele
2f54d3f0-8414-4844-8296-e97f6097e09e
Johnson, Laura P.
860f752b-5481-4790-8c03-b6769aceb06e
Sponheimer, Matt
a3fd335d-2489-4a4e-94a1-eb7a299e4a7f
Gibson, Glenn R.
24ac4753-4f78-475f-9766-5da179e2ab92
Barraclough, Timothy G.
cc0e4ec0-b3fe-499b-a1b9-6cdbd32079e8
Frost, Gary S.
6a72e815-6bb1-45be-ae63-2d7aaebee3f6
Walton, Gemma E
a167f493-b3bf-4063-acdf-acdfa8c1137c
Swann, Jonathan R.
7c11a66b-f4b8-4dbf-aa17-ad8b0561b85c
Psichas, Arianna
d451b613-79a0-4cda-a637-407a821eac03
Costabile, Adele
2f54d3f0-8414-4844-8296-e97f6097e09e
Johnson, Laura P.
860f752b-5481-4790-8c03-b6769aceb06e
Sponheimer, Matt
a3fd335d-2489-4a4e-94a1-eb7a299e4a7f
Gibson, Glenn R.
24ac4753-4f78-475f-9766-5da179e2ab92
Barraclough, Timothy G.
cc0e4ec0-b3fe-499b-a1b9-6cdbd32079e8

Frost, Gary S., Walton, Gemma E, Swann, Jonathan R., Psichas, Arianna, Costabile, Adele, Johnson, Laura P., Sponheimer, Matt, Gibson, Glenn R. and Barraclough, Timothy G. (2014) Impacts of plant-based foods in ancestral hominin diets on the metabolism and function of gut microbiota in vitro. mBio, 5 (3), [e00853]. (doi:10.1128/mBio.00853-14).

Record type: Article

Abstract

Ancestral human populations had diets containing more indigestible plant material than present-day diets in industrialized countries. One hypothesis for the rise in prevalence of obesity is that physiological mechanisms for controlling appetite evolved to match a diet with plant fiber content higher than that of present-day diets. We investigated how diet affects gut microbiota and colon cells by comparing human microbial communities with those from a primate that has an extreme plant-based diet, namely, the gelada baboon, which is a grazer. The effects of potato (high starch) versus grass (high lignin and cellulose) diets on human-derived versus gelada-derived fecal communities were compared in vitro. We especially focused on the production of short-chain fatty acids, which are hypothesized to be key metabolites influencing appetite regulation pathways. The results confirmed that diet has a major effect on bacterial numbers, short-chain fatty acid production, and the release of hormones involved in appetite suppression. The potato diet yielded greater production of short-chain fatty acids and hormone release than the grass diet, even in the gelada cultures, which we had expected should be better adapted to the grass diet. The strong effects of diet on hormone release could not be explained, however, solely by short-chain fatty acid concentrations. Nuclear magnetic resonance spectroscopy found changes in additional metabolites, including betaine and isoleucine, that might play key roles in inhibiting and stimulating appetite suppression pathways. Our study results indicate that a broader array of metabolites might be involved in triggering gut hormone release in humans than previously thought.

IMPORTANCE One theory for rising levels of obesity in western populations is that the body’s mechanisms for controlling appetite evolved to match ancestral diets with more low-energy plant foods. We investigated this idea by comparing the effects of diet on appetite suppression pathways via the use of gut bacterial communities from humans and gelada baboons, which are modern-day primates with an extreme diet of low-energy plant food, namely, grass. We found that diet does play a major role in affecting gut bacteria and the production of a hormone that suppresses appetite but not in the direction predicted by the ancestral diet hypothesis. Also, bacterial products were correlated with hormone release that were different from those normally thought to play this role. By comparing microbiota and diets outside the natural range for modern humans, we found a relationship between diet and appetite pathways that was more complex than previously hypothesized on the basis of more-controlled studies of the effects of single compounds.

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More information

Published date: 20 May 2014
Keywords: Animal Feed, Animals, Bacteria/metabolism, Biodiversity, Biomass, Fatty Acids/biosynthesis, Gastrointestinal Tract/metabolism, Hominidae, Humans, Male, Metabolomics, Mice, Microbiota, Peptide YY/metabolism, Plants, Edible, Theropithecus

Identifiers

Local EPrints ID: 441988
URI: http://eprints.soton.ac.uk/id/eprint/441988
ISSN: 2150-7511
PURE UUID: 28fccab6-4868-4437-9343-a282ac86ad6a
ORCID for Jonathan R. Swann: ORCID iD orcid.org/0000-0002-6485-4529

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Date deposited: 03 Jul 2020 16:31
Last modified: 17 Mar 2024 04:00

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Contributors

Author: Gary S. Frost
Author: Gemma E Walton
Author: Arianna Psichas
Author: Adele Costabile
Author: Laura P. Johnson
Author: Matt Sponheimer
Author: Glenn R. Gibson
Author: Timothy G. Barraclough

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