A Diurnal Rhythm in Brown Adipose Tissue Causes Rapid Clearance and Combustion of Plasma Lipids at Wakening

Many favorable metabolic effects have been attributed to thermogenic activity of brown adipose tissue (BAT). Yet, time of day has rarely been considered in this field of research. Here, we show that a diurnal rhythm in BAT activity regulates plasma lipid metabolism. We observed a high-amplitude rhyt...

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Published inCell reports (Cambridge) Vol. 22; no. 13; pp. 3521 - 3533
Main Authors van den Berg, Rosa, Kooijman, Sander, Noordam, Raymond, Ramkisoensing, Ashna, Abreu-Vieira, Gustavo, Tambyrajah, Lauren L., Dijk, Wieneke, Ruppert, Philip, Mol, Isabel M., Kramar, Barbara, Caputo, Rosanna, Puig, Laura Sardón, de Ruiter, Evelien M., Kroon, Jan, Hoekstra, Menno, van der Sluis, Ronald J., Meijer, Onno C., Willems van Dijk, Ko, van Kerkhof, Linda W.M., Christodoulides, Constantinos, Karpe, Fredrik, Gerhart-Hines, Zachary, Kersten, Sander, Meijer, Johanna H., Coomans, Claudia P., van Heemst, Diana, Biermasz, Nienke R., Rensen, Patrick C.N.
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 27.03.2018
Elsevier
Subjects
Adipose Tissue, Brown - metabolism
angiopoietin-like 4
Animal biology
Animals
APOE3-Leiden.CETP mice
APOE∗3-Leiden.CETP mice
brown adipose tissue
Circadian Rhythm
diurnal rhythm
fatty acids
Fatty Acids - metabolism
Humans
Life Sciences
Lipid Metabolism - physiology
lipoprotein lipase
Mice
postprandial lipid response
triglycerides
Wakefulness
brown adipose tissue
fatty acids
lipoprotein lipase
APOE∗3-Leiden.CETP mice
circadian rhythm
diurnal rhythm
triglycerides
angiopoietin-like 4
postprandial lipid response
APOE(∗)3-Leiden.CETP mice
Online AccessGet full text
ISSN2211-1247
2211-1247
DOI10.1016/j.celrep.2018.03.004

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Abstract Many favorable metabolic effects have been attributed to thermogenic activity of brown adipose tissue (BAT). Yet, time of day has rarely been considered in this field of research. Here, we show that a diurnal rhythm in BAT activity regulates plasma lipid metabolism. We observed a high-amplitude rhythm in fatty acid uptake by BAT that synchronized with the light/dark cycle. Highest uptake was found at the onset of the active period, which coincided with high lipoprotein lipase expression and low angiopoietin-like 4 expression by BAT. Diurnal rhythmicity in BAT activity determined the rate at which lipids were cleared from the circulation, thereby imposing the daily rhythm in plasma lipid concentrations. In mice as well as humans, postprandial lipid excursions were nearly absent at waking. We anticipate that diurnal BAT activity is an important factor to consider when studying the therapeutic potential of promoting BAT activity. [Display omitted] •Fatty acid uptake by BAT is rhythmic and highest at the onset of wakening•Circadian pattern of fatty acid uptake by BAT depends on light exposure duration•Time of day dictates the capacity of BAT to clear postprandial lipids van den Berg et al. show a strong circadian rhythm in fatty acid uptake by brown adipose tissue that peaks at wakening regardless of the light exposure period. Consequently, postprandial lipid handling by brown adipose tissue is highest at wakening, resulting in the lowest postprandial plasma lipid excursions.
AbstractList Many favorable metabolic effects have been attributed to thermogenic activity of brown adipose tissue (BAT). Yet, time of day has rarely been considered in this field of research. Here, we show that a diurnal rhythm in BAT activity regulates plasma lipid metabolism. We observed a high-amplitude rhythm in fatty acid uptake by BAT that synchronized with the light/dark cycle. Highest uptake was found at the onset of the active period, which coincided with high lipoprotein lipase expression and low angiopoietin-like 4 expression by BAT. Diurnal rhythmicity in BAT activity determined the rate at which lipids were cleared from the circulation, thereby imposing the daily rhythm in plasma lipid concentrations. In mice as well as humans, postprandial lipid excursions were nearly absent at waking. We anticipate that diurnal BAT activity is an important factor to consider when studying the therapeutic potential of promoting BAT activity.Many favorable metabolic effects have been attributed to thermogenic activity of brown adipose tissue (BAT). Yet, time of day has rarely been considered in this field of research. Here, we show that a diurnal rhythm in BAT activity regulates plasma lipid metabolism. We observed a high-amplitude rhythm in fatty acid uptake by BAT that synchronized with the light/dark cycle. Highest uptake was found at the onset of the active period, which coincided with high lipoprotein lipase expression and low angiopoietin-like 4 expression by BAT. Diurnal rhythmicity in BAT activity determined the rate at which lipids were cleared from the circulation, thereby imposing the daily rhythm in plasma lipid concentrations. In mice as well as humans, postprandial lipid excursions were nearly absent at waking. We anticipate that diurnal BAT activity is an important factor to consider when studying the therapeutic potential of promoting BAT activity.
Many favorable metabolic effects have been attributed to thermogenic activity of brown adipose tissue (BAT). Yet, time of day has rarely been considered in this field of research. Here, we show that a diurnal rhythm in BAT activity regulates plasma lipid metabolism. We observed a high-amplitude rhythm in fatty acid uptake by BAT that synchronized with the light/dark cycle. Highest uptake was found at the onset of the active period, which coincided with high lipoprotein lipase expression and low angiopoietin-like 4 expression by BAT. Diurnal rhythmicity in BAT activity determined the rate at which lipids were cleared from the circulation, thereby imposing the daily rhythm in plasma lipid concentrations. In mice as well as humans, postprandial lipid excursions were nearly absent at waking. We anticipate that diurnal BAT activity is an important factor to consider when studying the therapeutic potential of promoting BAT activity. [Display omitted] •Fatty acid uptake by BAT is rhythmic and highest at the onset of wakening•Circadian pattern of fatty acid uptake by BAT depends on light exposure duration•Time of day dictates the capacity of BAT to clear postprandial lipids van den Berg et al. show a strong circadian rhythm in fatty acid uptake by brown adipose tissue that peaks at wakening regardless of the light exposure period. Consequently, postprandial lipid handling by brown adipose tissue is highest at wakening, resulting in the lowest postprandial plasma lipid excursions.
Many favorable metabolic effects have been attributed to thermogenic activity of brown adipose tissue (BAT). Yet, time of day has rarely been considered in this field of research. Here, we show that a diurnal rhythm in BAT activity regulates plasma lipid metabolism. We observed a high-amplitude rhythm in fatty acid uptake by BAT that synchronized with the light/dark cycle. Highest uptake was found at the onset of the active period, which coincided with high lipoprotein lipase expression and low angiopoietin-like 4 expression by BAT. Diurnal rhythmicity in BAT activity determined the rate at which lipids were cleared from the circulation, thereby imposing the daily rhythm in plasma lipid concentrations. In mice as well as humans, postprandial lipid excursions were nearly absent at waking. We anticipate that diurnal BAT activity is an important factor to consider when studying the therapeutic potential of promoting BAT activity. van den Berg et al. show a strong circadian rhythm in fatty acid uptake by brown adipose tissue that peaks at wakening regardless of the light exposure period. Consequently, postprandial lipid handling by brown adipose tissue is highest at wakening, resulting in the lowest postprandial plasma lipid excursions.
Many favorable metabolic effects have been attributed to thermogenic activity of brown adipose tissue (BAT). Yet, time of day has rarely been considered in this field of research. Here, we show that a diurnal rhythm in BAT activity regulates plasma lipid metabolism. We observed a high-amplitude rhythm in fatty acid uptake by BAT that synchronized with the light/dark cycle. Highest uptake was found at the onset of the active period, which coincided with high lipoprotein lipase expression and low angiopoietin-like 4 expression by BAT. Diurnal rhythmicity in BAT activity determined the rate at which lipids were cleared from the circulation, thereby imposing the daily rhythm in plasma lipid concentrations. In mice as well as humans, postprandial lipid excursions were nearly absent at waking. We anticipate that diurnal BAT activity is an important factor to consider when studying the therapeutic potential of promoting BAT activity. : van den Berg et al. show a strong circadian rhythm in fatty acid uptake by brown adipose tissue that peaks at wakening regardless of the light exposure period. Consequently, postprandial lipid handling by brown adipose tissue is highest at wakening, resulting in the lowest postprandial plasma lipid excursions. Keywords: circadian rhythm, diurnal rhythm, brown adipose tissue, triglycerides, fatty acids, lipoprotein lipase, angiopoietin-like 4, postprandial lipid response, APOE∗3-Leiden.CETP mice
Many favorable metabolic effects have been attributed to thermogenic activity of brown adipose tissue (BAT). Yet, time of day has rarely been considered in this field of research. Here, we show that a diurnal rhythm in BAT activity regulates plasma lipid metabolism. We observed a high-amplitude rhythm in fatty acid uptake by BAT that synchronized with the light/dark cycle. Highest uptake was found at the onset of the active period, which coincided with high lipoprotein lipase expression and low angiopoietin-like 4 expression by BAT. Diurnal rhythmicity in BAT activity determined the rate at which lipids were cleared from the circulation, thereby imposing the daily rhythm in plasma lipid concentrations. In mice as well as humans, postprandial lipid excursions were nearly absent at waking. We anticipate that diurnal BAT activity is an important factor to consider when studying the therapeutic potential of promoting BAT activity.
Author de Ruiter, Evelien M.
Karpe, Fredrik
Meijer, Johanna H.
Puig, Laura Sardón
Ramkisoensing, Ashna
Kooijman, Sander
van den Berg, Rosa
Dijk, Wieneke
Noordam, Raymond
van der Sluis, Ronald J.
Meijer, Onno C.
Gerhart-Hines, Zachary
Kroon, Jan
van Heemst, Diana
Kersten, Sander
Caputo, Rosanna
Mol, Isabel M.
Kramar, Barbara
Christodoulides, Constantinos
Coomans, Claudia P.
Ruppert, Philip
Willems van Dijk, Ko
Rensen, Patrick C.N.
Tambyrajah, Lauren L.
Hoekstra, Menno
van Kerkhof, Linda W.M.
Biermasz, Nienke R.
Abreu-Vieira, Gustavo
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Copyright © 2018 The Authors. Published by Elsevier Inc. All rights reserved.
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Wageningen University & Research
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ID FETCH-LOGICAL-c625t-7bb58c858101ba158744cfb9f389971dccd3650e5837f50a34f026d39f5906bf3
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ISSN 2211-1247
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IsDoiOpenAccess true
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Issue 13
Keywords brown adipose tissue
fatty acids
lipoprotein lipase
APOE∗3-Leiden.CETP mice
circadian rhythm
diurnal rhythm
triglycerides
angiopoietin-like 4
postprandial lipid response
APOE(∗)3-Leiden.CETP mice
Language English
License This is an open access article under the CC BY license.
Copyright © 2018 The Authors. Published by Elsevier Inc. All rights reserved.
Distributed under a Creative Commons Attribution 4.0 International License: http://creativecommons.org/licenses/by/4.0
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content type line 23
ORCID 0000-0003-1676-7751
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PMID 29590620
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Snippet Many favorable metabolic effects have been attributed to thermogenic activity of brown adipose tissue (BAT). Yet, time of day has rarely been considered in...
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SubjectTerms Adipose Tissue, Brown - metabolism
angiopoietin-like 4
Animal biology
Animals
APOE3-Leiden.CETP mice
APOE∗3-Leiden.CETP mice
brown adipose tissue
Circadian Rhythm
diurnal rhythm
fatty acids
Fatty Acids - metabolism
Humans
Life Sciences
Lipid Metabolism - physiology
lipoprotein lipase
Mice
postprandial lipid response
triglycerides
Wakefulness
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Title A Diurnal Rhythm in Brown Adipose Tissue Causes Rapid Clearance and Combustion of Plasma Lipids at Wakening
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https://www.ncbi.nlm.nih.gov/pubmed/29590620
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Volume 22
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