Insights in the regulation of trimetylamine N-oxide production using a comparative biomimetic approach suggest a metabolic switch in hibernating bears

Insights in the regulation of trimetylamine N-oxide production using a comparative biomimetic approach suggest a metabolic switch in hibernating bears

Abstract Experimental studies suggest involvement of trimethylamine N-oxide (TMAO) in the aetiology of cardiometabolic diseases and chronic kidney disease (CKD), in part via metabolism of ingested food. Using a comparative biomimetic approach, we have investigated circulating levels of the gut metab...

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Main Authors: Thomas Ebert, Johanna Painer, Peter Bergman, Abdul Rashid Qureshi, Sylvain Giroud, Gabrielle Stalder, Karolina Kublickiene, Frank Göritz, Sebastian Vetter, Claudia Bieber, Ole Fröbert, Jon M. Arnemo, Andreas Zedrosser, Irene Redtenbacher, Paul G. Shiels, Richard J. Johnson, Peter Stenvinkel
Format: Article
Language:English
Published: Nature Publishing Group 2020-11-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-020-76346-1
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spelling doaj-1ccf685f5a4d46ca94fdc9cd039dc8162020-12-08T12:04:06ZengNature Publishing GroupScientific Reports2045-23222020-11-0110111510.1038/s41598-020-76346-1Insights in the regulation of trimetylamine N-oxide production using a comparative biomimetic approach suggest a metabolic switch in hibernating bearsThomas Ebert0Johanna Painer1Peter Bergman2Abdul Rashid Qureshi3Sylvain Giroud4Gabrielle Stalder5Karolina Kublickiene6Frank Göritz7Sebastian Vetter8Claudia Bieber9Ole Fröbert10Jon M. Arnemo11Andreas Zedrosser12Irene Redtenbacher13Paul G. Shiels14Richard J. Johnson15Peter Stenvinkel16Division of Renal Medicine, Department of Clinical Science, Intervention and Technology, Karolinska InstitutetDepartment of Interdisciplinary Life Sciences, Research Institute of Wildlife Ecology, Veterinary University ViennaDivision of Clinical Microbiology, Department of Laboratory Medicine, Karolinska InstitutetDivision of Renal Medicine, Department of Clinical Science, Intervention and Technology, Karolinska InstitutetDepartment of Interdisciplinary Life Sciences, Research Institute of Wildlife Ecology, Veterinary University ViennaDepartment of Interdisciplinary Life Sciences, Research Institute of Wildlife Ecology, Veterinary University ViennaDivision of Renal Medicine, Department of Clinical Science, Intervention and Technology, Karolinska InstitutetLeibniz Institute for Zoo and Wildlife EcologyDepartment of Interdisciplinary Life Sciences, Research Institute of Wildlife Ecology, Veterinary University ViennaDepartment of Interdisciplinary Life Sciences, Research Institute of Wildlife Ecology, Veterinary University ViennaDepartment of Cardiology, Faculty of Health, Örebro UniversityDepartment of Forestry and Wildlife Management, Inland Norway University of Applied SciencesDepartment of Natural Sciences and Environmental Health, University of South-Eastern NorwayFour Paws InternationalWolfson Wohl Cancer Research Centre, Institute of Cancer Sciences, University of GlasgowDivision of Renal Diseases, University of Colorado Anschutz Medical CampusDivision of Renal Medicine, Department of Clinical Science, Intervention and Technology, Karolinska InstitutetAbstract Experimental studies suggest involvement of trimethylamine N-oxide (TMAO) in the aetiology of cardiometabolic diseases and chronic kidney disease (CKD), in part via metabolism of ingested food. Using a comparative biomimetic approach, we have investigated circulating levels of the gut metabolites betaine, choline, and TMAO in human CKD, across animal species as well as during hibernation in two animal species. Betaine, choline, and TMAO levels were associated with renal function in humans and differed significantly across animal species. Free-ranging brown bears showed a distinct regulation pattern with an increase in betaine (422%) and choline (18%) levels during hibernation, but exhibited undetectable levels of TMAO. Free-ranging brown bears had higher betaine, lower choline, and undetectable TMAO levels compared to captive brown bears. Endogenously produced betaine may protect bears and garden dormice during the vulnerable hibernating period. Carnivorous eating habits are linked to TMAO levels in the animal kingdom. Captivity may alter the microbiota and cause a subsequent increase of TMAO production. Since free-ranging bears seems to turn on a metabolic switch that shunts choline to generate betaine instead of TMAO, characterisation and understanding of such an adaptive switch could hold clues for novel treatment options in burden of lifestyle diseases, such as CKD.https://doi.org/10.1038/s41598-020-76346-1
collection DOAJ
language English
format Article
sources DOAJ
author Thomas Ebert
Johanna Painer
Peter Bergman
Abdul Rashid Qureshi
Sylvain Giroud
Gabrielle Stalder
Karolina Kublickiene
Frank Göritz
Sebastian Vetter
Claudia Bieber
Ole Fröbert
Jon M. Arnemo
Andreas Zedrosser
Irene Redtenbacher
Paul G. Shiels
Richard J. Johnson
Peter Stenvinkel
spellingShingle Thomas Ebert
Johanna Painer
Peter Bergman
Abdul Rashid Qureshi
Sylvain Giroud
Gabrielle Stalder
Karolina Kublickiene
Frank Göritz
Sebastian Vetter
Claudia Bieber
Ole Fröbert
Jon M. Arnemo
Andreas Zedrosser
Irene Redtenbacher
Paul G. Shiels
Richard J. Johnson
Peter Stenvinkel
Insights in the regulation of trimetylamine N-oxide production using a comparative biomimetic approach suggest a metabolic switch in hibernating bears
Scientific Reports
author_facet Thomas Ebert
Johanna Painer
Peter Bergman
Abdul Rashid Qureshi
Sylvain Giroud
Gabrielle Stalder
Karolina Kublickiene
Frank Göritz
Sebastian Vetter
Claudia Bieber
Ole Fröbert
Jon M. Arnemo
Andreas Zedrosser
Irene Redtenbacher
Paul G. Shiels
Richard J. Johnson
Peter Stenvinkel
author_sort Thomas Ebert
title Insights in the regulation of trimetylamine N-oxide production using a comparative biomimetic approach suggest a metabolic switch in hibernating bears
title_short Insights in the regulation of trimetylamine N-oxide production using a comparative biomimetic approach suggest a metabolic switch in hibernating bears
title_full Insights in the regulation of trimetylamine N-oxide production using a comparative biomimetic approach suggest a metabolic switch in hibernating bears
title_fullStr Insights in the regulation of trimetylamine N-oxide production using a comparative biomimetic approach suggest a metabolic switch in hibernating bears
title_full_unstemmed Insights in the regulation of trimetylamine N-oxide production using a comparative biomimetic approach suggest a metabolic switch in hibernating bears
title_sort insights in the regulation of trimetylamine n-oxide production using a comparative biomimetic approach suggest a metabolic switch in hibernating bears
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2020-11-01
description Abstract Experimental studies suggest involvement of trimethylamine N-oxide (TMAO) in the aetiology of cardiometabolic diseases and chronic kidney disease (CKD), in part via metabolism of ingested food. Using a comparative biomimetic approach, we have investigated circulating levels of the gut metabolites betaine, choline, and TMAO in human CKD, across animal species as well as during hibernation in two animal species. Betaine, choline, and TMAO levels were associated with renal function in humans and differed significantly across animal species. Free-ranging brown bears showed a distinct regulation pattern with an increase in betaine (422%) and choline (18%) levels during hibernation, but exhibited undetectable levels of TMAO. Free-ranging brown bears had higher betaine, lower choline, and undetectable TMAO levels compared to captive brown bears. Endogenously produced betaine may protect bears and garden dormice during the vulnerable hibernating period. Carnivorous eating habits are linked to TMAO levels in the animal kingdom. Captivity may alter the microbiota and cause a subsequent increase of TMAO production. Since free-ranging bears seems to turn on a metabolic switch that shunts choline to generate betaine instead of TMAO, characterisation and understanding of such an adaptive switch could hold clues for novel treatment options in burden of lifestyle diseases, such as CKD.
url https://doi.org/10.1038/s41598-020-76346-1
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