ThermoMouse: An In Vivo Model to Identify Modulators of UCP1 Expression in Brown Adipose Tissue

ThermoMouse: An In Vivo Model to Identify Modulators of UCP1 Expression in Brown Adipose Tissue

Summary: Obesity develops when energy intake chronically exceeds energy expenditure. Because brown adipose tissue (BAT) dissipates energy in the form of heat, increasing energy expenditure by augmenting BAT-mediated thermogenesis may represent an approach to counter obesity and its complications. Th...

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Main Authors: Andrea Galmozzi, Si B. Sonne, Svetlana Altshuler-Keylin, Yutaka Hasegawa, Kosaku Shinoda, Ineke H.N. Luijten, Jae Won Chang, Louis Z. Sharp, Benjamin F. Cravatt, Enrique Saez, Shingo Kajimura
Format: Article
Language:English
Published: Elsevier 2014-12-01
Series:Cell Reports
Online Access:http://www.sciencedirect.com/science/article/pii/S2211124714009358
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spelling doaj-decde0e7d1e546039d6ecb0c9f00ff1e2020-11-24T21:34:06ZengElsevierCell Reports2211-12472014-12-019515841593ThermoMouse: An In Vivo Model to Identify Modulators of UCP1 Expression in Brown Adipose TissueAndrea Galmozzi0Si B. Sonne1Svetlana Altshuler-Keylin2Yutaka Hasegawa3Kosaku Shinoda4Ineke H.N. Luijten5Jae Won Chang6Louis Z. Sharp7Benjamin F. Cravatt8Enrique Saez9Shingo Kajimura10Department of Chemical Physiology and The Skaggs Institute for Chemical Biology, The Scripps Research Institute, La Jolla, CA 92037, USAUCSF Diabetes Center, Department of Cell and Tissue Biology, University of California, San Francisco, 35 Medical Center Way, San Francisco, CA 94143, USAUCSF Diabetes Center, Department of Cell and Tissue Biology, University of California, San Francisco, 35 Medical Center Way, San Francisco, CA 94143, USAUCSF Diabetes Center, Department of Cell and Tissue Biology, University of California, San Francisco, 35 Medical Center Way, San Francisco, CA 94143, USAUCSF Diabetes Center, Department of Cell and Tissue Biology, University of California, San Francisco, 35 Medical Center Way, San Francisco, CA 94143, USAUCSF Diabetes Center, Department of Cell and Tissue Biology, University of California, San Francisco, 35 Medical Center Way, San Francisco, CA 94143, USADepartment of Chemical Physiology and The Skaggs Institute for Chemical Biology, The Scripps Research Institute, La Jolla, CA 92037, USAUCSF Diabetes Center, Department of Cell and Tissue Biology, University of California, San Francisco, 35 Medical Center Way, San Francisco, CA 94143, USADepartment of Chemical Physiology and The Skaggs Institute for Chemical Biology, The Scripps Research Institute, La Jolla, CA 92037, USADepartment of Chemical Physiology and The Skaggs Institute for Chemical Biology, The Scripps Research Institute, La Jolla, CA 92037, USA; Corresponding authorUCSF Diabetes Center, Department of Cell and Tissue Biology, University of California, San Francisco, 35 Medical Center Way, San Francisco, CA 94143, USA; Corresponding authorSummary: Obesity develops when energy intake chronically exceeds energy expenditure. Because brown adipose tissue (BAT) dissipates energy in the form of heat, increasing energy expenditure by augmenting BAT-mediated thermogenesis may represent an approach to counter obesity and its complications. The ability of BAT to dissipate energy is dependent on expression of mitochondrial uncoupling protein 1 (UCP1). To facilitate the identification of pharmacological modulators of BAT UCP1 levels, which may have potential as antiobesity medications, we developed a transgenic model in which luciferase activity faithfully mimics endogenous UCP1 expression and its response to physiologic stimuli. Phenotypic screening of a library using cells derived from this model yielded a small molecule that increases UCP1 expression in brown fat cells and mice. Upon adrenergic stimulation, compound-treated mice showed increased energy expenditure. These tools offer an opportunity to identify pharmacologic modulators of UCP1 expression and uncover regulatory pathways that impact BAT-mediated thermogenesis. : Pharmacological activation of brown adipose tissue (BAT) thermogenesis and energy dissipation, a process mediated by UCP1, may be useful to counter the energy imbalance that engenders obesity. Galmozzi et al. have developed an in vivo model to monitor UCP1 expression in real time and identified a small molecule that increases UCP1 levels. Mice treated with this molecule show greater energy expenditure upon adrenergic stimulation. Discovery of compounds with this ability is an important stride toward enhancing BAT function in obese individuals.http://www.sciencedirect.com/science/article/pii/S2211124714009358
collection DOAJ
language English
format Article
sources DOAJ
author Andrea Galmozzi
Si B. Sonne
Svetlana Altshuler-Keylin
Yutaka Hasegawa
Kosaku Shinoda
Ineke H.N. Luijten
Jae Won Chang
Louis Z. Sharp
Benjamin F. Cravatt
Enrique Saez
Shingo Kajimura
spellingShingle Andrea Galmozzi
Si B. Sonne
Svetlana Altshuler-Keylin
Yutaka Hasegawa
Kosaku Shinoda
Ineke H.N. Luijten
Jae Won Chang
Louis Z. Sharp
Benjamin F. Cravatt
Enrique Saez
Shingo Kajimura
ThermoMouse: An In Vivo Model to Identify Modulators of UCP1 Expression in Brown Adipose Tissue
Cell Reports
author_facet Andrea Galmozzi
Si B. Sonne
Svetlana Altshuler-Keylin
Yutaka Hasegawa
Kosaku Shinoda
Ineke H.N. Luijten
Jae Won Chang
Louis Z. Sharp
Benjamin F. Cravatt
Enrique Saez
Shingo Kajimura
author_sort Andrea Galmozzi
title ThermoMouse: An In Vivo Model to Identify Modulators of UCP1 Expression in Brown Adipose Tissue
title_short ThermoMouse: An In Vivo Model to Identify Modulators of UCP1 Expression in Brown Adipose Tissue
title_full ThermoMouse: An In Vivo Model to Identify Modulators of UCP1 Expression in Brown Adipose Tissue
title_fullStr ThermoMouse: An In Vivo Model to Identify Modulators of UCP1 Expression in Brown Adipose Tissue
title_full_unstemmed ThermoMouse: An In Vivo Model to Identify Modulators of UCP1 Expression in Brown Adipose Tissue
title_sort thermomouse: an in vivo model to identify modulators of ucp1 expression in brown adipose tissue
publisher Elsevier
series Cell Reports
issn 2211-1247
publishDate 2014-12-01
description Summary: Obesity develops when energy intake chronically exceeds energy expenditure. Because brown adipose tissue (BAT) dissipates energy in the form of heat, increasing energy expenditure by augmenting BAT-mediated thermogenesis may represent an approach to counter obesity and its complications. The ability of BAT to dissipate energy is dependent on expression of mitochondrial uncoupling protein 1 (UCP1). To facilitate the identification of pharmacological modulators of BAT UCP1 levels, which may have potential as antiobesity medications, we developed a transgenic model in which luciferase activity faithfully mimics endogenous UCP1 expression and its response to physiologic stimuli. Phenotypic screening of a library using cells derived from this model yielded a small molecule that increases UCP1 expression in brown fat cells and mice. Upon adrenergic stimulation, compound-treated mice showed increased energy expenditure. These tools offer an opportunity to identify pharmacologic modulators of UCP1 expression and uncover regulatory pathways that impact BAT-mediated thermogenesis. : Pharmacological activation of brown adipose tissue (BAT) thermogenesis and energy dissipation, a process mediated by UCP1, may be useful to counter the energy imbalance that engenders obesity. Galmozzi et al. have developed an in vivo model to monitor UCP1 expression in real time and identified a small molecule that increases UCP1 levels. Mice treated with this molecule show greater energy expenditure upon adrenergic stimulation. Discovery of compounds with this ability is an important stride toward enhancing BAT function in obese individuals.
url http://www.sciencedirect.com/science/article/pii/S2211124714009358
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