Cardiometabolic benefits of a non-industrialized-type diet are linked to gut microbiome modulation

Fuyong Li; Anissa M. Armet; Katri Korpela; Junhong Liu; Rodrigo Margain Quevedo; Francesco Asnicar; Benjamin Seethaler; Tianna B.S. Rusnak; Janis L. Cole; Zhihong Zhang; Shuang Zhao; Xiaohang Wang; Adele Gagnon; Edward C. Deehan; João F. Mota; Jeffrey A. Bakal; Russell Greiner; Dan Knights; Nicola Segata; Stephan C. Bischoff; Laurie Mereu; Andrea M. Haqq; Catherine J. Field; Liang Li; Carla M. Prado; Jens Walter

doi:10.1016/j.cell.2024.12.034

Cardiometabolic benefits of a non-industrialized-type diet are linked to gut microbiome modulation

Fuyong Li, Anissa M. Armet, Katri Korpela, Junhong Liu, Rodrigo Margain Quevedo, Francesco Asnicar, Benjamin Seethaler, Tianna B.S. Rusnak, Janis L. Cole, Zhihong Zhang, Shuang Zhao, Xiaohang Wang, Adele Gagnon, Edward C. Deehan, João F. Mota, Jeffrey A. Bakal, Russell Greiner, Dan Knights, Nicola Segata, Stephan C. BischoffLaurie Mereu, Andrea M. Haqq, Catherine J. Field, Liang Li, Carla M. Prado, Jens Walter

Biotechnology Institute

Research output: Contribution to journal › Article › peer-review

9 Scopus citations

Abstract

Industrialization adversely affects the gut microbiome and predisposes individuals to chronic non-communicable diseases. We tested a microbiome restoration strategy comprising a diet that recapitulated key characteristics of non-industrialized dietary patterns (restore diet) and a bacterium rarely found in industrialized microbiomes (Limosilactobacillus reuteri) in a randomized controlled feeding trial in healthy Canadian adults. The restore diet, despite reducing gut microbiome diversity, enhanced the persistence of L. reuteri strain from rural Papua New Guinea (PB-W1) and redressed several microbiome features altered by industrialization. The diet also beneficially altered microbiota-derived plasma metabolites implicated in the etiology of chronic non-communicable diseases. Considerable cardiometabolic benefits were observed independently of L. reuteri administration, several of which could be accurately predicted by baseline and diet-responsive microbiome features. The findings suggest that a dietary intervention targeted toward restoring the gut microbiome can improve host-microbiome interactions that likely underpin chronic pathologies, which can guide dietary recommendations and the development of therapeutic and nutritional strategies.

Original language	English (US)
Pages (from-to)	1226-1247.e18
Journal	Cell
Volume	188
Issue number	5
DOIs	https://doi.org/10.1016/j.cell.2024.12.034
State	Published - Mar 6 2025

Bibliographical note

Publisher Copyright:
© 2025 The Authors

Keywords

Limosilactobacillus reuteri
cardiometabolic health
chronic disease
diet
dietary intervention
fiber
gut microbiome
microbiome restoration
non-industrialized diet
nutrition

PubMed: MeSH publication types

Journal Article
Randomized Controlled Trial

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.cell.2024.12.034License: CC BY

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Li, F., Armet, A. M., Korpela, K., Liu, J., Quevedo, R. M., Asnicar, F., Seethaler, B., Rusnak, T. B. S., Cole, J. L., Zhang, Z., Zhao, S., Wang, X., Gagnon, A., Deehan, E. C., Mota, J. F., Bakal, J. A., Greiner, R., Knights, D., Segata, N., ... Walter, J. (2025). Cardiometabolic benefits of a non-industrialized-type diet are linked to gut microbiome modulation. Cell, 188(5), 1226-1247.e18. https://doi.org/10.1016/j.cell.2024.12.034

Li, F, Armet, AM, Korpela, K, Liu, J, Quevedo, RM, Asnicar, F, Seethaler, B, Rusnak, TBS, Cole, JL, Zhang, Z, Zhao, S, Wang, X, Gagnon, A, Deehan, EC, Mota, JF, Bakal, JA, Greiner, R, Knights, D, Segata, N, Bischoff, SC, Mereu, L, Haqq, AM, Field, CJ, Li, L, Prado, CM & Walter, J 2025, 'Cardiometabolic benefits of a non-industrialized-type diet are linked to gut microbiome modulation', Cell, vol. 188, no. 5, pp. 1226-1247.e18. https://doi.org/10.1016/j.cell.2024.12.034

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abstract = "Industrialization adversely affects the gut microbiome and predisposes individuals to chronic non-communicable diseases. We tested a microbiome restoration strategy comprising a diet that recapitulated key characteristics of non-industrialized dietary patterns (restore diet) and a bacterium rarely found in industrialized microbiomes (Limosilactobacillus reuteri) in a randomized controlled feeding trial in healthy Canadian adults. The restore diet, despite reducing gut microbiome diversity, enhanced the persistence of L. reuteri strain from rural Papua New Guinea (PB-W1) and redressed several microbiome features altered by industrialization. The diet also beneficially altered microbiota-derived plasma metabolites implicated in the etiology of chronic non-communicable diseases. Considerable cardiometabolic benefits were observed independently of L. reuteri administration, several of which could be accurately predicted by baseline and diet-responsive microbiome features. The findings suggest that a dietary intervention targeted toward restoring the gut microbiome can improve host-microbiome interactions that likely underpin chronic pathologies, which can guide dietary recommendations and the development of therapeutic and nutritional strategies.",

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AU - Liu, Junhong

AU - Quevedo, Rodrigo Margain

AU - Asnicar, Francesco

AU - Seethaler, Benjamin

AU - Rusnak, Tianna B.S.

AU - Cole, Janis L.

AU - Zhang, Zhihong

AU - Zhao, Shuang

AU - Wang, Xiaohang

AU - Gagnon, Adele

AU - Deehan, Edward C.

AU - Mota, João F.

AU - Bakal, Jeffrey A.

AU - Greiner, Russell

AU - Knights, Dan

AU - Segata, Nicola

AU - Bischoff, Stephan C.

AU - Mereu, Laurie

AU - Haqq, Andrea M.

AU - Field, Catherine J.

AU - Li, Liang

AU - Prado, Carla M.

AU - Walter, Jens

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N2 - Industrialization adversely affects the gut microbiome and predisposes individuals to chronic non-communicable diseases. We tested a microbiome restoration strategy comprising a diet that recapitulated key characteristics of non-industrialized dietary patterns (restore diet) and a bacterium rarely found in industrialized microbiomes (Limosilactobacillus reuteri) in a randomized controlled feeding trial in healthy Canadian adults. The restore diet, despite reducing gut microbiome diversity, enhanced the persistence of L. reuteri strain from rural Papua New Guinea (PB-W1) and redressed several microbiome features altered by industrialization. The diet also beneficially altered microbiota-derived plasma metabolites implicated in the etiology of chronic non-communicable diseases. Considerable cardiometabolic benefits were observed independently of L. reuteri administration, several of which could be accurately predicted by baseline and diet-responsive microbiome features. The findings suggest that a dietary intervention targeted toward restoring the gut microbiome can improve host-microbiome interactions that likely underpin chronic pathologies, which can guide dietary recommendations and the development of therapeutic and nutritional strategies.

AB - Industrialization adversely affects the gut microbiome and predisposes individuals to chronic non-communicable diseases. We tested a microbiome restoration strategy comprising a diet that recapitulated key characteristics of non-industrialized dietary patterns (restore diet) and a bacterium rarely found in industrialized microbiomes (Limosilactobacillus reuteri) in a randomized controlled feeding trial in healthy Canadian adults. The restore diet, despite reducing gut microbiome diversity, enhanced the persistence of L. reuteri strain from rural Papua New Guinea (PB-W1) and redressed several microbiome features altered by industrialization. The diet also beneficially altered microbiota-derived plasma metabolites implicated in the etiology of chronic non-communicable diseases. Considerable cardiometabolic benefits were observed independently of L. reuteri administration, several of which could be accurately predicted by baseline and diet-responsive microbiome features. The findings suggest that a dietary intervention targeted toward restoring the gut microbiome can improve host-microbiome interactions that likely underpin chronic pathologies, which can guide dietary recommendations and the development of therapeutic and nutritional strategies.

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KW - chronic disease

KW - diet

KW - dietary intervention

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KW - nutrition

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VL - 188

SP - 1226-1247.e18

JO - Cell

JF - Cell

IS - 5

ER -

Cardiometabolic benefits of a non-industrialized-type diet are linked to gut microbiome modulation

Abstract

Bibliographical note

Keywords

PubMed: MeSH publication types

UN SDGs

Publisher link

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