Differential effects of Akkermansia-enriched fecal microbiota transplant on energy balance in female mice on high-fat diet

Differential effects of Akkermansia-enriched fecal microbiota transplant on energy balance in female mice on high-fat diet

Estrogens protect against weight gain and metabolic disruption in women and female rodents. Aberrations in the gut microbiota composition are linked to obesity and metabolic disorders. Furthermore, estrogen-mediated protection against diet-induced metabolic disruption is associated with modifications in gut microbiota. In this study, we tested if estradiol (E2)-mediated protection against obesity and metabolic disorders in female mice is dependent on gut microbiota. Specifically, we tested if fecal microbiota transplantation (FMT) from E2-treated lean female mice, supplemented with or without Akkermansia muciniphila, prevented high fat diet (HFD)-induced body weight gain, fat mass gain, and hyperglycemia in female recipients. FMT from, and cohousing with, E2-treated lean donors was not sufficient to transfer the metabolic benefits to the E2-deficient female recipients. Moreover, FMT from lean donors supplemented with A. muciniphila exacerbated HFD-induced hyperglycemia in E2-deficient recipients, suggesting its detrimental effect on the metabolic health of E2-deficient female rodents fed a HFD. Given that A. muciniphila attenuates HFD-induced metabolic insults in males, the present findings suggest a sex difference in the impact of this microbe on metabolic health.

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Main Authors: Acharya, Kalpana D., Friedline, Randall H., Ward, Doyle V., Graham, Madeline E., Tauer, Lauren, Zheng, Doris, Hu, Xiaodi, de Vos, Willem M., McCormick, Beth A., Kim, Jason K., Tetel, Marc J.
Format: Article/Letter to editor biblioteca
Language:English
Subjects:diabetes, estradiol, estrogens, gut microbiome, metabolism, obesity,
Online Access:https://research.wur.nl/en/publications/differential-effects-of-akkermansia-enriched-fecal-microbiota-tra
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spelling dig-wur-nl-wurpubs-6052972024-12-04 Acharya, Kalpana D. Friedline, Randall H. Ward, Doyle V. Graham, Madeline E. Tauer, Lauren Zheng, Doris Hu, Xiaodi de Vos, Willem M. McCormick, Beth A. Kim, Jason K. Tetel, Marc J. Article/Letter to editor Frontiers in Endocrinology 13 (2022) ISSN: 1664-2392 Differential effects of Akkermansia-enriched fecal microbiota transplant on energy balance in female mice on high-fat diet 2022 Estrogens protect against weight gain and metabolic disruption in women and female rodents. Aberrations in the gut microbiota composition are linked to obesity and metabolic disorders. Furthermore, estrogen-mediated protection against diet-induced metabolic disruption is associated with modifications in gut microbiota. In this study, we tested if estradiol (E2)-mediated protection against obesity and metabolic disorders in female mice is dependent on gut microbiota. Specifically, we tested if fecal microbiota transplantation (FMT) from E2-treated lean female mice, supplemented with or without Akkermansia muciniphila, prevented high fat diet (HFD)-induced body weight gain, fat mass gain, and hyperglycemia in female recipients. FMT from, and cohousing with, E2-treated lean donors was not sufficient to transfer the metabolic benefits to the E2-deficient female recipients. Moreover, FMT from lean donors supplemented with A. muciniphila exacerbated HFD-induced hyperglycemia in E2-deficient recipients, suggesting its detrimental effect on the metabolic health of E2-deficient female rodents fed a HFD. Given that A. muciniphila attenuates HFD-induced metabolic insults in males, the present findings suggest a sex difference in the impact of this microbe on metabolic health. en application/pdf https://research.wur.nl/en/publications/differential-effects-of-akkermansia-enriched-fecal-microbiota-tra 10.3389/fendo.2022.1010806 https://edepot.wur.nl/581883 diabetes estradiol estrogens gut microbiome metabolism obesity https://creativecommons.org/licenses/by/4.0/ https://creativecommons.org/licenses/by/4.0/ Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic diabetes
estradiol
estrogens
gut microbiome
metabolism
obesity
diabetes
estradiol
estrogens
gut microbiome
metabolism
obesity
spellingShingle diabetes
estradiol
estrogens
gut microbiome
metabolism
obesity
diabetes
estradiol
estrogens
gut microbiome
metabolism
obesity
Acharya, Kalpana D.
Friedline, Randall H.
Ward, Doyle V.
Graham, Madeline E.
Tauer, Lauren
Zheng, Doris
Hu, Xiaodi
de Vos, Willem M.
McCormick, Beth A.
Kim, Jason K.
Tetel, Marc J.
Differential effects of Akkermansia-enriched fecal microbiota transplant on energy balance in female mice on high-fat diet
description Estrogens protect against weight gain and metabolic disruption in women and female rodents. Aberrations in the gut microbiota composition are linked to obesity and metabolic disorders. Furthermore, estrogen-mediated protection against diet-induced metabolic disruption is associated with modifications in gut microbiota. In this study, we tested if estradiol (E2)-mediated protection against obesity and metabolic disorders in female mice is dependent on gut microbiota. Specifically, we tested if fecal microbiota transplantation (FMT) from E2-treated lean female mice, supplemented with or without Akkermansia muciniphila, prevented high fat diet (HFD)-induced body weight gain, fat mass gain, and hyperglycemia in female recipients. FMT from, and cohousing with, E2-treated lean donors was not sufficient to transfer the metabolic benefits to the E2-deficient female recipients. Moreover, FMT from lean donors supplemented with A. muciniphila exacerbated HFD-induced hyperglycemia in E2-deficient recipients, suggesting its detrimental effect on the metabolic health of E2-deficient female rodents fed a HFD. Given that A. muciniphila attenuates HFD-induced metabolic insults in males, the present findings suggest a sex difference in the impact of this microbe on metabolic health.
format Article/Letter to editor
topic_facet diabetes
estradiol
estrogens
gut microbiome
metabolism
obesity
author Acharya, Kalpana D.
Friedline, Randall H.
Ward, Doyle V.
Graham, Madeline E.
Tauer, Lauren
Zheng, Doris
Hu, Xiaodi
de Vos, Willem M.
McCormick, Beth A.
Kim, Jason K.
Tetel, Marc J.
author_facet Acharya, Kalpana D.
Friedline, Randall H.
Ward, Doyle V.
Graham, Madeline E.
Tauer, Lauren
Zheng, Doris
Hu, Xiaodi
de Vos, Willem M.
McCormick, Beth A.
Kim, Jason K.
Tetel, Marc J.
author_sort Acharya, Kalpana D.
title Differential effects of Akkermansia-enriched fecal microbiota transplant on energy balance in female mice on high-fat diet
title_short Differential effects of Akkermansia-enriched fecal microbiota transplant on energy balance in female mice on high-fat diet
title_full Differential effects of Akkermansia-enriched fecal microbiota transplant on energy balance in female mice on high-fat diet
title_fullStr Differential effects of Akkermansia-enriched fecal microbiota transplant on energy balance in female mice on high-fat diet
title_full_unstemmed Differential effects of Akkermansia-enriched fecal microbiota transplant on energy balance in female mice on high-fat diet
title_sort differential effects of akkermansia-enriched fecal microbiota transplant on energy balance in female mice on high-fat diet
url https://research.wur.nl/en/publications/differential-effects-of-akkermansia-enriched-fecal-microbiota-tra
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