Infusion of donor feces affects the gut–brain axis in humans with metabolic syndrome

OBJECTIVE: Increasing evidence indicates that intestinal microbiota play a role in diverse metabolic processes via intestinal butyrate production. Human bariatric surgery data suggest that the gut-brain axis is also involved in this process, but the underlying mechanisms remain unknown. METHODS: We...

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Autores principales: Hartstra, Annick V., Schüppel, Valentina, Imangaliyev, Sultan, Schrantee, Anouk, Prodan, Andrei, Collard, Didier, Levin, Evgeni, Dallinga-Thie, Geesje, Ackermans, Mariette T., Winkelmeijer, Maaike, Havik, Stefan R., Metwaly, Amira, Lagkouvardos, Ilias, Nier, Anika, Bergheim, Ina, Heikenwalder, Mathias, Dunkel, Andreas, Nederveen, Aart J., Liebisch, Gerhard, Mancano, Giulia, Claus, Sandrine P., Benítez-Páez, Alfonso, la Fleur, Susanne E., Bergman, Jacques J., Gerdes, Victor, Sanz, Yolanda, Booij, Jan, Kemper, Elles, Groen, Albert K., Serlie, Mireille J., Haller, Dirk, Nieuwdorp, Max
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2020
Materias:
Original Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7536740/
https://www.ncbi.nlm.nih.gov/pubmed/32916306
http://dx.doi.org/10.1016/j.molmet.2020.101076
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author Hartstra, Annick V.
Schüppel, Valentina
Imangaliyev, Sultan
Schrantee, Anouk
Prodan, Andrei
Collard, Didier
Levin, Evgeni
Dallinga-Thie, Geesje
Ackermans, Mariette T.
Winkelmeijer, Maaike
Havik, Stefan R.
Metwaly, Amira
Lagkouvardos, Ilias
Nier, Anika
Bergheim, Ina
Heikenwalder, Mathias
Dunkel, Andreas
Nederveen, Aart J.
Liebisch, Gerhard
Mancano, Giulia
Claus, Sandrine P.
Benítez-Páez, Alfonso
la Fleur, Susanne E.
Bergman, Jacques J.
Gerdes, Victor
Sanz, Yolanda
Booij, Jan
Kemper, Elles
Groen, Albert K.
Serlie, Mireille J.
Haller, Dirk
Nieuwdorp, Max
author_facet Hartstra, Annick V.
Schüppel, Valentina
Imangaliyev, Sultan
Schrantee, Anouk
Prodan, Andrei
Collard, Didier
Levin, Evgeni
Dallinga-Thie, Geesje
Ackermans, Mariette T.
Winkelmeijer, Maaike
Havik, Stefan R.
Metwaly, Amira
Lagkouvardos, Ilias
Nier, Anika
Bergheim, Ina
Heikenwalder, Mathias
Dunkel, Andreas
Nederveen, Aart J.
Liebisch, Gerhard
Mancano, Giulia
Claus, Sandrine P.
Benítez-Páez, Alfonso
la Fleur, Susanne E.
Bergman, Jacques J.
Gerdes, Victor
Sanz, Yolanda
Booij, Jan
Kemper, Elles
Groen, Albert K.
Serlie, Mireille J.
Haller, Dirk
Nieuwdorp, Max
author_sort Hartstra, Annick V.
collection PubMed
description OBJECTIVE: Increasing evidence indicates that intestinal microbiota play a role in diverse metabolic processes via intestinal butyrate production. Human bariatric surgery data suggest that the gut-brain axis is also involved in this process, but the underlying mechanisms remain unknown. METHODS: We compared the effect of fecal microbiota transfer (FMT) from post-Roux-en-Y gastric bypass (RYGB) donors vs oral butyrate supplementation on ((123)I-FP-CIT-determined) brain dopamine transporter (DAT) and serotonin transporter (SERT) binding as well as stable isotope-determined insulin sensitivity at baseline and after 4 weeks in 24 male and female treatment-naïve metabolic syndrome subjects. Plasma metabolites and fecal microbiota were also determined at these time points. RESULTS: We observed an increase in brain DAT after donor FMT compared to oral butyrate that reduced this binding. However, no effect on body weight and insulin sensitivity was demonstrated after post-RYGB donor feces transfer in humans with metabolic syndrome. Increases in fecal levels of Bacteroides uniformis were significantly associated with an increase in DAT, whereas increases in Prevotella spp. showed an inverse association. Changes in the plasma metabolites glycine, betaine, methionine, and lysine (associated with the S-adenosylmethionine cycle) were also associated with altered striatal DAT expression. CONCLUSIONS: Although more and larger studies are needed, our data suggest a potential gut microbiota-driven modulation of brain dopamine and serotonin transporters in human subjects with obese metabolic syndrome. These data also suggest the presence of a gut-brain axis in humans that can be modulated. NTR REGISTRATION: 4488.
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spelling pubmed-75367402020-10-09 Infusion of donor feces affects the gut–brain axis in humans with metabolic syndrome Hartstra, Annick V. Schüppel, Valentina Imangaliyev, Sultan Schrantee, Anouk Prodan, Andrei Collard, Didier Levin, Evgeni Dallinga-Thie, Geesje Ackermans, Mariette T. Winkelmeijer, Maaike Havik, Stefan R. Metwaly, Amira Lagkouvardos, Ilias Nier, Anika Bergheim, Ina Heikenwalder, Mathias Dunkel, Andreas Nederveen, Aart J. Liebisch, Gerhard Mancano, Giulia Claus, Sandrine P. Benítez-Páez, Alfonso la Fleur, Susanne E. Bergman, Jacques J. Gerdes, Victor Sanz, Yolanda Booij, Jan Kemper, Elles Groen, Albert K. Serlie, Mireille J. Haller, Dirk Nieuwdorp, Max Mol Metab Original Article OBJECTIVE: Increasing evidence indicates that intestinal microbiota play a role in diverse metabolic processes via intestinal butyrate production. Human bariatric surgery data suggest that the gut-brain axis is also involved in this process, but the underlying mechanisms remain unknown. METHODS: We compared the effect of fecal microbiota transfer (FMT) from post-Roux-en-Y gastric bypass (RYGB) donors vs oral butyrate supplementation on ((123)I-FP-CIT-determined) brain dopamine transporter (DAT) and serotonin transporter (SERT) binding as well as stable isotope-determined insulin sensitivity at baseline and after 4 weeks in 24 male and female treatment-naïve metabolic syndrome subjects. Plasma metabolites and fecal microbiota were also determined at these time points. RESULTS: We observed an increase in brain DAT after donor FMT compared to oral butyrate that reduced this binding. However, no effect on body weight and insulin sensitivity was demonstrated after post-RYGB donor feces transfer in humans with metabolic syndrome. Increases in fecal levels of Bacteroides uniformis were significantly associated with an increase in DAT, whereas increases in Prevotella spp. showed an inverse association. Changes in the plasma metabolites glycine, betaine, methionine, and lysine (associated with the S-adenosylmethionine cycle) were also associated with altered striatal DAT expression. CONCLUSIONS: Although more and larger studies are needed, our data suggest a potential gut microbiota-driven modulation of brain dopamine and serotonin transporters in human subjects with obese metabolic syndrome. These data also suggest the presence of a gut-brain axis in humans that can be modulated. NTR REGISTRATION: 4488. Elsevier 2020-09-08 /pmc/articles/PMC7536740/ /pubmed/32916306 http://dx.doi.org/10.1016/j.molmet.2020.101076 Text en © 2020 The Author(s) http://creativecommons.org/licenses/by/4.0/ This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Original Article
Hartstra, Annick V.
Schüppel, Valentina
Imangaliyev, Sultan
Schrantee, Anouk
Prodan, Andrei
Collard, Didier
Levin, Evgeni
Dallinga-Thie, Geesje
Ackermans, Mariette T.
Winkelmeijer, Maaike
Havik, Stefan R.
Metwaly, Amira
Lagkouvardos, Ilias
Nier, Anika
Bergheim, Ina
Heikenwalder, Mathias
Dunkel, Andreas
Nederveen, Aart J.
Liebisch, Gerhard
Mancano, Giulia
Claus, Sandrine P.
Benítez-Páez, Alfonso
la Fleur, Susanne E.
Bergman, Jacques J.
Gerdes, Victor
Sanz, Yolanda
Booij, Jan
Kemper, Elles
Groen, Albert K.
Serlie, Mireille J.
Haller, Dirk
Nieuwdorp, Max
Infusion of donor feces affects the gut–brain axis in humans with metabolic syndrome
title Infusion of donor feces affects the gut–brain axis in humans with metabolic syndrome
title_full Infusion of donor feces affects the gut–brain axis in humans with metabolic syndrome
title_fullStr Infusion of donor feces affects the gut–brain axis in humans with metabolic syndrome
title_full_unstemmed Infusion of donor feces affects the gut–brain axis in humans with metabolic syndrome
title_short Infusion of donor feces affects the gut–brain axis in humans with metabolic syndrome
title_sort infusion of donor feces affects the gut–brain axis in humans with metabolic syndrome
topic Original Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7536740/
https://www.ncbi.nlm.nih.gov/pubmed/32916306
http://dx.doi.org/10.1016/j.molmet.2020.101076
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