Hepatic circadian clock oscillators and nuclear receptors integrate microbiome-derived signals

Hepatic circadian clock oscillators and nuclear receptors integrate microbiome-derived signals

The liver is a key organ of metabolic homeostasis with functions that oscillate in response to food intake. Although liver and gut microbiome crosstalk has been reported, microbiome-mediated effects on peripheral circadian clocks and their output genes are less well known. Here, we report that germ-...

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Main Authors: Montagner, Alexandra, Korecka, Agata, Polizzi, Arnaud, Lippi, Yannick, Blum, Yuna, Canlet, Cécile, Tremblay-Franco, Marie, Gautier-Stein, Amandine, Burcelin, Rémy, Yen, Yi-Chun, Je, Hyunsoo Shawn, Maha, Al-Asmakh, Mithieux, Gilles, Arulampalam, Velmurugesan, Lagarrigue, Sandrine, Guillou, Hervé, Pettersson, Sven, Wahli, Walter
Other Authors: Lee Kong Chian School of Medicine (LKCMedicine)
Format: Article
Language:English
Published: 2016
Subjects:
Medicine
Online Access:https://hdl.handle.net/10356/80202
http://hdl.handle.net/10220/40393
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-802022022-02-16T16:30:52Z Hepatic circadian clock oscillators and nuclear receptors integrate microbiome-derived signals Montagner, Alexandra Korecka, Agata Polizzi, Arnaud Lippi, Yannick Blum, Yuna Canlet, Cécile Tremblay-Franco, Marie Gautier-Stein, Amandine Burcelin, Rémy Yen, Yi-Chun Je, Hyunsoo Shawn Maha, Al-Asmakh Mithieux, Gilles Arulampalam, Velmurugesan Lagarrigue, Sandrine Guillou, Hervé Pettersson, Sven Wahli, Walter Lee Kong Chian School of Medicine (LKCMedicine) Singapore Centre for Environmental Life Sciences Engineering Medicine The liver is a key organ of metabolic homeostasis with functions that oscillate in response to food intake. Although liver and gut microbiome crosstalk has been reported, microbiome-mediated effects on peripheral circadian clocks and their output genes are less well known. Here, we report that germ-free (GF) mice display altered daily oscillation of clock gene expression with a concomitant change in the expression of clock output regulators. Mice exposed to microbes typically exhibit characterized activities of nuclear receptors, some of which (PPARα, LXRβ) regulate specific liver gene expression networks, but these activities are profoundly changed in GF mice. These alterations in microbiome-sensitive gene expression patterns are associated with daily alterations in lipid, glucose, and xenobiotic metabolism, protein turnover, and redox balance, as revealed by hepatic metabolome analyses. Moreover, at the systemic level, daily changes in the abundance of biomarkers such as HDL cholesterol, free fatty acids, FGF21, bilirubin, and lactate depend on the microbiome. Altogether, our results indicate that the microbiome is required for integration of liver clock oscillations that tune output activators and their effectors, thereby regulating metabolic gene expression for optimal liver function. Published version 2016-04-12T03:01:28Z 2019-12-06T13:42:49Z 2016-04-12T03:01:28Z 2019-12-06T13:42:49Z 2016 Journal Article Montagner, A., Korecka, A., Polizzi, A., Lippi, Y., Blum, Y., Canlet, C., Tremblay-Franco, M., Gautier-Stein, A., Burcelin, R., Yen, Y. C., Je, H. S., Maha, A. A., Mithieux, G., Arulampalam, V., Lagarrigue, S., Guillou, H., Pettersson, S., & Wahli, W. (2016). Hepatic circadian clock oscillators and nuclear receptors integrate microbiome-derived signals. Scientific Reports, 6, 20127-. 2045-2322 https://hdl.handle.net/10356/80202 http://hdl.handle.net/10220/40393 10.1038/srep20127 26879573 en Scientific Reports This work is licensed under a Creative Commons Attribution 4.0 International License. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in the credit line; if the material is not included under the Creative Commons license, users will need to obtain permission from the license holder to reproduce the material. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ 14 p. application/pdf
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic Medicine
spellingShingle Medicine
Montagner, Alexandra
Korecka, Agata
Polizzi, Arnaud
Lippi, Yannick
Blum, Yuna
Canlet, Cécile
Tremblay-Franco, Marie
Gautier-Stein, Amandine
Burcelin, Rémy
Yen, Yi-Chun
Je, Hyunsoo Shawn
Maha, Al-Asmakh
Mithieux, Gilles
Arulampalam, Velmurugesan
Lagarrigue, Sandrine
Guillou, Hervé
Pettersson, Sven
Wahli, Walter
Hepatic circadian clock oscillators and nuclear receptors integrate microbiome-derived signals
description The liver is a key organ of metabolic homeostasis with functions that oscillate in response to food intake. Although liver and gut microbiome crosstalk has been reported, microbiome-mediated effects on peripheral circadian clocks and their output genes are less well known. Here, we report that germ-free (GF) mice display altered daily oscillation of clock gene expression with a concomitant change in the expression of clock output regulators. Mice exposed to microbes typically exhibit characterized activities of nuclear receptors, some of which (PPARα, LXRβ) regulate specific liver gene expression networks, but these activities are profoundly changed in GF mice. These alterations in microbiome-sensitive gene expression patterns are associated with daily alterations in lipid, glucose, and xenobiotic metabolism, protein turnover, and redox balance, as revealed by hepatic metabolome analyses. Moreover, at the systemic level, daily changes in the abundance of biomarkers such as HDL cholesterol, free fatty acids, FGF21, bilirubin, and lactate depend on the microbiome. Altogether, our results indicate that the microbiome is required for integration of liver clock oscillations that tune output activators and their effectors, thereby regulating metabolic gene expression for optimal liver function.
author2 Lee Kong Chian School of Medicine (LKCMedicine)
author_facet Lee Kong Chian School of Medicine (LKCMedicine)
Montagner, Alexandra
Korecka, Agata
Polizzi, Arnaud
Lippi, Yannick
Blum, Yuna
Canlet, Cécile
Tremblay-Franco, Marie
Gautier-Stein, Amandine
Burcelin, Rémy
Yen, Yi-Chun
Je, Hyunsoo Shawn
Maha, Al-Asmakh
Mithieux, Gilles
Arulampalam, Velmurugesan
Lagarrigue, Sandrine
Guillou, Hervé
Pettersson, Sven
Wahli, Walter
format Article
author Montagner, Alexandra
Korecka, Agata
Polizzi, Arnaud
Lippi, Yannick
Blum, Yuna
Canlet, Cécile
Tremblay-Franco, Marie
Gautier-Stein, Amandine
Burcelin, Rémy
Yen, Yi-Chun
Je, Hyunsoo Shawn
Maha, Al-Asmakh
Mithieux, Gilles
Arulampalam, Velmurugesan
Lagarrigue, Sandrine
Guillou, Hervé
Pettersson, Sven
Wahli, Walter
author_sort Montagner, Alexandra
title Hepatic circadian clock oscillators and nuclear receptors integrate microbiome-derived signals
title_short Hepatic circadian clock oscillators and nuclear receptors integrate microbiome-derived signals
title_full Hepatic circadian clock oscillators and nuclear receptors integrate microbiome-derived signals
title_fullStr Hepatic circadian clock oscillators and nuclear receptors integrate microbiome-derived signals
title_full_unstemmed Hepatic circadian clock oscillators and nuclear receptors integrate microbiome-derived signals
title_sort hepatic circadian clock oscillators and nuclear receptors integrate microbiome-derived signals
publishDate 2016
url https://hdl.handle.net/10356/80202
http://hdl.handle.net/10220/40393
_version_ 1725985749157806080

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