Postbiotic Parabacteroides Distasonis Supplementation Enhances Intestinal and Skeletal Muscle Function in Aged Mice

Pablo Morgado-Cáceres; Hernán Huerta; Cristian Bergman; Reinaldo Figueroa; Paula Farias; Gabriel Quiroz; Ute Woehlbier; Karen Mella; Osmán Díaz-Rivera; Sergio Linsambarth; Paulina Calderón-Romero; Felipe A. Court; Denisse Sepulveda; Daniela Sauma; Patricia Luz-Crawford; Anibal A. Vargas; Catalina Gonzalez-Seguel; J. César Cárdenas; Alenka Lovy

doi:10.14336/AD.2025.0188

Postbiotic Parabacteroides Distasonis Supplementation Enhances Intestinal and Skeletal Muscle Function in Aged Mice

Pablo Morgado-Cáceres
, Hernán Huerta
, Cristian Bergman
, Reinaldo Figueroa
, Paula Farias
, Gabriel Quiroz
, Ute Woehlbier
, Karen Mella
, Osmán Díaz-Rivera
, Sergio Linsambarth
, Paulina Calderón-Romero
, Felipe A. Court
, Denisse Sepulveda
, Daniela Sauma
, Patricia Luz-Crawford
, Anibal A. Vargas
, Catalina Gonzalez-Seguel
, J. César Cárdenas^*
, Alenka Lovy^*

^*Corresponding author for this work

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

1 Scopus citations

Abstract

Parabacteroides distasonis (Pd), a core member of the human gut microbiota, is enriched in centenarians, suggesting a potential role in promoting organismal resilience. While Pd supplementation has been shown to alleviate cancer and inflammatory diseases, its ability to mitigate the decline associated with aging remains unexplored. Here, we demonstrate that postbiotic Pd supplementation induces multiple beneficial effects in 18- and 26-month-old mice following three months of treatment. Pd-treated mice exhibit lower blood glucose levels and increased ketone body production. In the gut, Pd reduces colon shortening observed in aged control mice and decreases the inflammatory mediator NFκB, in the colonic mucosa. Microbiome analysis further reveals enhanced gut microbiota diversity in Pd-supplemented mice. Additionally, FITC-dextran permeability assays indicate improved intestinal barrier function. Cell culture experiments in HCT116 colon cell line show that Pd reduces oxygen consumption and promotes mitochondrial networking, accompanied by upregulation of PGC1α and CHOP, suggesting a mitohormetic response. Beyond metabolic and gut-related benefits, Pd supplementation enhances skeletal muscle strength in both 18- and 26-month-old mice. Proteomic analysis of gastrocnemius muscle reveals that Pd increases the expression of mitochondrial proteins associated with mitochondrial fitness and survival. Notably, Pd-supplemented mice challenged with a high-fat diet gain weight at a slower rate, while maintaining better skeletal muscle coordination and strength. In summary, our findings suggest that postbiotic Pd supplementation enhances metabolic health, reduces inflammation, improves mitochondrial function, and preserves muscle strength in aged mice. These results position Pd as a promising therapeutic tool for promoting healthy aging and combating aging-related diseases.

Original language	English
Pages (from-to)	1534-1555
Number of pages	22
Journal	Aging and Disease
Volume	17
Issue number	3
DOIs	https://doi.org/10.14336/AD.2025.0188
State	Published - 1 Jun 2026

Bibliographical note

Publisher Copyright:
© 2025 Morgado-Cáceres P. et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License https://creativecommons.org/licenses/by/4.0/, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

UN SDGs

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

SDG 3 Good Health and Well-being

Keywords

IL-10
Mitochondria
aging
commensal bacteria
postbiotics

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10.14336/AD.2025.0188

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Morgado-Cáceres, P., Huerta, H., Bergman, C., Figueroa, R., Farias, P., Quiroz, G., Woehlbier, U., Mella, K., Díaz-Rivera, O., Linsambarth, S., Calderón-Romero, P., Court, F. A., Sepulveda, D., Sauma, D., Luz-Crawford, P., Vargas, A. A., Gonzalez-Seguel, C., Cárdenas, J. C., & Lovy, A. (2026). Postbiotic Parabacteroides Distasonis Supplementation Enhances Intestinal and Skeletal Muscle Function in Aged Mice. Aging and Disease, 17(3), 1534-1555. https://doi.org/10.14336/AD.2025.0188

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title = "Postbiotic Parabacteroides Distasonis Supplementation Enhances Intestinal and Skeletal Muscle Function in Aged Mice",

abstract = "Parabacteroides distasonis (Pd), a core member of the human gut microbiota, is enriched in centenarians, suggesting a potential role in promoting organismal resilience. While Pd supplementation has been shown to alleviate cancer and inflammatory diseases, its ability to mitigate the decline associated with aging remains unexplored. Here, we demonstrate that postbiotic Pd supplementation induces multiple beneficial effects in 18- and 26-month-old mice following three months of treatment. Pd-treated mice exhibit lower blood glucose levels and increased ketone body production. In the gut, Pd reduces colon shortening observed in aged control mice and decreases the inflammatory mediator NFκB, in the colonic mucosa. Microbiome analysis further reveals enhanced gut microbiota diversity in Pd-supplemented mice. Additionally, FITC-dextran permeability assays indicate improved intestinal barrier function. Cell culture experiments in HCT116 colon cell line show that Pd reduces oxygen consumption and promotes mitochondrial networking, accompanied by upregulation of PGC1α and CHOP, suggesting a mitohormetic response. Beyond metabolic and gut-related benefits, Pd supplementation enhances skeletal muscle strength in both 18- and 26-month-old mice. Proteomic analysis of gastrocnemius muscle reveals that Pd increases the expression of mitochondrial proteins associated with mitochondrial fitness and survival. Notably, Pd-supplemented mice challenged with a high-fat diet gain weight at a slower rate, while maintaining better skeletal muscle coordination and strength. In summary, our findings suggest that postbiotic Pd supplementation enhances metabolic health, reduces inflammation, improves mitochondrial function, and preserves muscle strength in aged mice. These results position Pd as a promising therapeutic tool for promoting healthy aging and combating aging-related diseases.",

keywords = "IL-10, Mitochondria, aging, commensal bacteria, postbiotics",

author = "Pablo Morgado-C{\'a}ceres and Hern{\'a}n Huerta and Cristian Bergman and Reinaldo Figueroa and Paula Farias and Gabriel Quiroz and Ute Woehlbier and Karen Mella and Osm{\'a}n D{\'i}az-Rivera and Sergio Linsambarth and Paulina Calder{\'o}n-Romero and Court, \{Felipe A.\} and Denisse Sepulveda and Daniela Sauma and Patricia Luz-Crawford and Vargas, \{Anibal A.\} and Catalina Gonzalez-Seguel and C{\'a}rdenas, \{J. C{\'e}sar\} and Alenka Lovy",

note = "Publisher Copyright: {\textcopyright} 2025 Morgado-C{\'a}ceres P. et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License https://creativecommons.org/licenses/by/4.0/, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.",

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doi = "10.14336/AD.2025.0188",

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Morgado-Cáceres, P, Huerta, H, Bergman, C, Figueroa, R, Farias, P, Quiroz, G, Woehlbier, U, Mella, K, Díaz-Rivera, O, Linsambarth, S, Calderón-Romero, P, Court, FA, Sepulveda, D, Sauma, D, Luz-Crawford, P, Vargas, AA, Gonzalez-Seguel, C, Cárdenas, JC & Lovy, A 2026, 'Postbiotic Parabacteroides Distasonis Supplementation Enhances Intestinal and Skeletal Muscle Function in Aged Mice', Aging and Disease, vol. 17, no. 3, pp. 1534-1555. https://doi.org/10.14336/AD.2025.0188

TY - JOUR

T1 - Postbiotic Parabacteroides Distasonis Supplementation Enhances Intestinal and Skeletal Muscle Function in Aged Mice

AU - Morgado-Cáceres, Pablo

AU - Huerta, Hernán

AU - Bergman, Cristian

AU - Figueroa, Reinaldo

AU - Farias, Paula

AU - Quiroz, Gabriel

AU - Woehlbier, Ute

AU - Mella, Karen

AU - Díaz-Rivera, Osmán

AU - Linsambarth, Sergio

AU - Calderón-Romero, Paulina

AU - Court, Felipe A.

AU - Sepulveda, Denisse

AU - Sauma, Daniela

AU - Luz-Crawford, Patricia

AU - Vargas, Anibal A.

AU - Gonzalez-Seguel, Catalina

AU - Cárdenas, J. César

AU - Lovy, Alenka

N1 - Publisher Copyright: © 2025 Morgado-Cáceres P. et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License https://creativecommons.org/licenses/by/4.0/, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

PY - 2026/6/1

Y1 - 2026/6/1

N2 - Parabacteroides distasonis (Pd), a core member of the human gut microbiota, is enriched in centenarians, suggesting a potential role in promoting organismal resilience. While Pd supplementation has been shown to alleviate cancer and inflammatory diseases, its ability to mitigate the decline associated with aging remains unexplored. Here, we demonstrate that postbiotic Pd supplementation induces multiple beneficial effects in 18- and 26-month-old mice following three months of treatment. Pd-treated mice exhibit lower blood glucose levels and increased ketone body production. In the gut, Pd reduces colon shortening observed in aged control mice and decreases the inflammatory mediator NFκB, in the colonic mucosa. Microbiome analysis further reveals enhanced gut microbiota diversity in Pd-supplemented mice. Additionally, FITC-dextran permeability assays indicate improved intestinal barrier function. Cell culture experiments in HCT116 colon cell line show that Pd reduces oxygen consumption and promotes mitochondrial networking, accompanied by upregulation of PGC1α and CHOP, suggesting a mitohormetic response. Beyond metabolic and gut-related benefits, Pd supplementation enhances skeletal muscle strength in both 18- and 26-month-old mice. Proteomic analysis of gastrocnemius muscle reveals that Pd increases the expression of mitochondrial proteins associated with mitochondrial fitness and survival. Notably, Pd-supplemented mice challenged with a high-fat diet gain weight at a slower rate, while maintaining better skeletal muscle coordination and strength. In summary, our findings suggest that postbiotic Pd supplementation enhances metabolic health, reduces inflammation, improves mitochondrial function, and preserves muscle strength in aged mice. These results position Pd as a promising therapeutic tool for promoting healthy aging and combating aging-related diseases.

AB - Parabacteroides distasonis (Pd), a core member of the human gut microbiota, is enriched in centenarians, suggesting a potential role in promoting organismal resilience. While Pd supplementation has been shown to alleviate cancer and inflammatory diseases, its ability to mitigate the decline associated with aging remains unexplored. Here, we demonstrate that postbiotic Pd supplementation induces multiple beneficial effects in 18- and 26-month-old mice following three months of treatment. Pd-treated mice exhibit lower blood glucose levels and increased ketone body production. In the gut, Pd reduces colon shortening observed in aged control mice and decreases the inflammatory mediator NFκB, in the colonic mucosa. Microbiome analysis further reveals enhanced gut microbiota diversity in Pd-supplemented mice. Additionally, FITC-dextran permeability assays indicate improved intestinal barrier function. Cell culture experiments in HCT116 colon cell line show that Pd reduces oxygen consumption and promotes mitochondrial networking, accompanied by upregulation of PGC1α and CHOP, suggesting a mitohormetic response. Beyond metabolic and gut-related benefits, Pd supplementation enhances skeletal muscle strength in both 18- and 26-month-old mice. Proteomic analysis of gastrocnemius muscle reveals that Pd increases the expression of mitochondrial proteins associated with mitochondrial fitness and survival. Notably, Pd-supplemented mice challenged with a high-fat diet gain weight at a slower rate, while maintaining better skeletal muscle coordination and strength. In summary, our findings suggest that postbiotic Pd supplementation enhances metabolic health, reduces inflammation, improves mitochondrial function, and preserves muscle strength in aged mice. These results position Pd as a promising therapeutic tool for promoting healthy aging and combating aging-related diseases.

KW - IL-10

KW - Mitochondria

KW - aging

KW - commensal bacteria

KW - postbiotics

UR - https://www.scopus.com/pages/publications/105035746535

U2 - 10.14336/AD.2025.0188

DO - 10.14336/AD.2025.0188

M3 - Article

AN - SCOPUS:105035746535

SN - 2152-5250

VL - 17

SP - 1534

EP - 1555

JO - Aging and Disease

JF - Aging and Disease

IS - 3

ER -

Postbiotic Parabacteroides Distasonis Supplementation Enhances Intestinal and Skeletal Muscle Function in Aged Mice

Abstract

Bibliographical note

UN SDGs

Keywords

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