The early metabolomic response of adipose tissue during acute cold exposure in mice

The early metabolomic response of adipose tissue during acute cold exposure in mice

Abstract To maintain core body temperature in cold conditions, mammals activate a complex multi-organ metabolic response for heat production. White adipose tissue (WAT) primarily functions as an energy reservoir, while brown adipose tissue (BAT) is activated during cold exposure to generate heat fro...

Full description

Bibliographic Details
Main Authors: Xiyuan Lu, Ashley Solmonson, Alessia Lodi, Sara M. Nowinski, Enrique Sentandreu, Christopher L. Riley, Edward M. Mills, Stefano Tiziani
Format: Article
Language:English
Published: Nature Publishing Group 2017-06-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-017-03108-x
id doaj-edb7f29ff306400a90df6841e1cd6c42
record_format Article
spelling doaj-edb7f29ff306400a90df6841e1cd6c422020-12-08T02:02:00ZengNature Publishing GroupScientific Reports2045-23222017-06-017111110.1038/s41598-017-03108-xThe early metabolomic response of adipose tissue during acute cold exposure in miceXiyuan Lu0Ashley Solmonson1Alessia Lodi2Sara M. Nowinski3Enrique Sentandreu4Christopher L. Riley5Edward M. Mills6Stefano Tiziani7Department of Nutritional Sciences & Dell Pediatric Research Institute, The University of Texas at AustinDivision of Pharmacology and Toxicology, College of Pharmacy, The University of TexasDepartment of Nutritional Sciences & Dell Pediatric Research Institute, The University of Texas at AustinDivision of Pharmacology and Toxicology, College of Pharmacy, The University of TexasDepartment of Nutritional Sciences & Dell Pediatric Research Institute, The University of Texas at AustinInstitute for Cellular and Molecular Biology, The University of Texas at AustinDivision of Pharmacology and Toxicology, College of Pharmacy, The University of TexasDepartment of Nutritional Sciences & Dell Pediatric Research Institute, The University of Texas at AustinAbstract To maintain core body temperature in cold conditions, mammals activate a complex multi-organ metabolic response for heat production. White adipose tissue (WAT) primarily functions as an energy reservoir, while brown adipose tissue (BAT) is activated during cold exposure to generate heat from nutrients. Both BAT and WAT undergo specific metabolic changes during acute cold exposure. Here, we use an untargeted metabolomics approach to characterize the initial metabolic response to cold exposure in multiple adipose tissue depots in mice. Results demonstrate dramatically distinct metabolic responses during cold exposure in BAT and WAT. Amino acids, nucleotide pathways, and metabolites involved in redox regulation were greatly affected 4 hours post-exposure in BAT, while no polar metabolites were observed to significantly change in WAT depots up to 6 hours post exposure. Lipid metabolism was activated early (2 hours) in both BAT and the subcutaneous WAT depots, with the most striking change being observed in the modulation of diglyceride and monoglyceride levels in BAT. Overall, these data provide a timeline of global thermogenic metabolism in adipose depots during acute cold exposure. We have highlighted differences in visceral and subcutaneous WAT thermogenic metabolism and demonstrate the distinct metabolism of BAT during cold exposure.https://doi.org/10.1038/s41598-017-03108-x
collection DOAJ
language English
format Article
sources DOAJ
author Xiyuan Lu
Ashley Solmonson
Alessia Lodi
Sara M. Nowinski
Enrique Sentandreu
Christopher L. Riley
Edward M. Mills
Stefano Tiziani
spellingShingle Xiyuan Lu
Ashley Solmonson
Alessia Lodi
Sara M. Nowinski
Enrique Sentandreu
Christopher L. Riley
Edward M. Mills
Stefano Tiziani
The early metabolomic response of adipose tissue during acute cold exposure in mice
Scientific Reports
author_facet Xiyuan Lu
Ashley Solmonson
Alessia Lodi
Sara M. Nowinski
Enrique Sentandreu
Christopher L. Riley
Edward M. Mills
Stefano Tiziani
author_sort Xiyuan Lu
title The early metabolomic response of adipose tissue during acute cold exposure in mice
title_short The early metabolomic response of adipose tissue during acute cold exposure in mice
title_full The early metabolomic response of adipose tissue during acute cold exposure in mice
title_fullStr The early metabolomic response of adipose tissue during acute cold exposure in mice
title_full_unstemmed The early metabolomic response of adipose tissue during acute cold exposure in mice
title_sort early metabolomic response of adipose tissue during acute cold exposure in mice
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2017-06-01
description Abstract To maintain core body temperature in cold conditions, mammals activate a complex multi-organ metabolic response for heat production. White adipose tissue (WAT) primarily functions as an energy reservoir, while brown adipose tissue (BAT) is activated during cold exposure to generate heat from nutrients. Both BAT and WAT undergo specific metabolic changes during acute cold exposure. Here, we use an untargeted metabolomics approach to characterize the initial metabolic response to cold exposure in multiple adipose tissue depots in mice. Results demonstrate dramatically distinct metabolic responses during cold exposure in BAT and WAT. Amino acids, nucleotide pathways, and metabolites involved in redox regulation were greatly affected 4 hours post-exposure in BAT, while no polar metabolites were observed to significantly change in WAT depots up to 6 hours post exposure. Lipid metabolism was activated early (2 hours) in both BAT and the subcutaneous WAT depots, with the most striking change being observed in the modulation of diglyceride and monoglyceride levels in BAT. Overall, these data provide a timeline of global thermogenic metabolism in adipose depots during acute cold exposure. We have highlighted differences in visceral and subcutaneous WAT thermogenic metabolism and demonstrate the distinct metabolism of BAT during cold exposure.
url https://doi.org/10.1038/s41598-017-03108-x
work_keys_str_mv AT xiyuanlu theearlymetabolomicresponseofadiposetissueduringacutecoldexposureinmice
AT ashleysolmonson theearlymetabolomicresponseofadiposetissueduringacutecoldexposureinmice
AT alessialodi theearlymetabolomicresponseofadiposetissueduringacutecoldexposureinmice
AT saramnowinski theearlymetabolomicresponseofadiposetissueduringacutecoldexposureinmice
AT enriquesentandreu theearlymetabolomicresponseofadiposetissueduringacutecoldexposureinmice
AT christopherlriley theearlymetabolomicresponseofadiposetissueduringacutecoldexposureinmice
AT edwardmmills theearlymetabolomicresponseofadiposetissueduringacutecoldexposureinmice
AT stefanotiziani theearlymetabolomicresponseofadiposetissueduringacutecoldexposureinmice
AT xiyuanlu earlymetabolomicresponseofadiposetissueduringacutecoldexposureinmice
AT ashleysolmonson earlymetabolomicresponseofadiposetissueduringacutecoldexposureinmice
AT alessialodi earlymetabolomicresponseofadiposetissueduringacutecoldexposureinmice
AT saramnowinski earlymetabolomicresponseofadiposetissueduringacutecoldexposureinmice
AT enriquesentandreu earlymetabolomicresponseofadiposetissueduringacutecoldexposureinmice
AT christopherlriley earlymetabolomicresponseofadiposetissueduringacutecoldexposureinmice
AT edwardmmills earlymetabolomicresponseofadiposetissueduringacutecoldexposureinmice
AT stefanotiziani earlymetabolomicresponseofadiposetissueduringacutecoldexposureinmice
_version_ 1724394262164930560

Similar Items