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Low protein-induced increases in FGF21 drive UCP1-dependent metabolic but not thermoregulatory endpoints
by
Hill, Cristal M.
, Albarado, Diana C.
, Laeger, Thomas
, Morrison, Christopher D.
, McDougal, David H.
, Berthoud, Hans-Rudolf
, Münzberg, Heike
in
631/443/319/1488
/ 631/443/319/1557
/ 64
/ 64/60
/ 82/80
/ Adipose tissue
/ Animals
/ Body weight loss
/ Cold-Shock Response - genetics
/ Diet
/ Diet, Protein-Restricted
/ Dietary restrictions
/ Eating
/ Energy expenditure
/ Energy Metabolism - genetics
/ Fibroblast growth factors
/ Fibroblast Growth Factors - genetics
/ Fibroblast Growth Factors - metabolism
/ Food
/ Food intake
/ Gene Deletion
/ Gene Expression Regulation
/ Humanities and Social Sciences
/ Hyperphagia
/ Low protein diet
/ Male
/ Metabolism
/ Mice
/ Mice, Knockout
/ multidisciplinary
/ Nutrient deficiency
/ Oxygen Consumption
/ Proteins
/ Rodents
/ Science
/ Science (multidisciplinary)
/ Thermogenesis - genetics
/ Uncoupling protein 1
/ Uncoupling Protein 1 - genetics
/ Uncoupling Protein 1 - metabolism
/ Weight Loss
2017
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Low protein-induced increases in FGF21 drive UCP1-dependent metabolic but not thermoregulatory endpoints
by
Hill, Cristal M.
, Albarado, Diana C.
, Laeger, Thomas
, Morrison, Christopher D.
, McDougal, David H.
, Berthoud, Hans-Rudolf
, Münzberg, Heike
in
631/443/319/1488
/ 631/443/319/1557
/ 64
/ 64/60
/ 82/80
/ Adipose tissue
/ Animals
/ Body weight loss
/ Cold-Shock Response - genetics
/ Diet
/ Diet, Protein-Restricted
/ Dietary restrictions
/ Eating
/ Energy expenditure
/ Energy Metabolism - genetics
/ Fibroblast growth factors
/ Fibroblast Growth Factors - genetics
/ Fibroblast Growth Factors - metabolism
/ Food
/ Food intake
/ Gene Deletion
/ Gene Expression Regulation
/ Humanities and Social Sciences
/ Hyperphagia
/ Low protein diet
/ Male
/ Metabolism
/ Mice
/ Mice, Knockout
/ multidisciplinary
/ Nutrient deficiency
/ Oxygen Consumption
/ Proteins
/ Rodents
/ Science
/ Science (multidisciplinary)
/ Thermogenesis - genetics
/ Uncoupling protein 1
/ Uncoupling Protein 1 - genetics
/ Uncoupling Protein 1 - metabolism
/ Weight Loss
2017
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Low protein-induced increases in FGF21 drive UCP1-dependent metabolic but not thermoregulatory endpoints
by
Hill, Cristal M.
, Albarado, Diana C.
, Laeger, Thomas
, Morrison, Christopher D.
, McDougal, David H.
, Berthoud, Hans-Rudolf
, Münzberg, Heike
in
631/443/319/1488
/ 631/443/319/1557
/ 64
/ 64/60
/ 82/80
/ Adipose tissue
/ Animals
/ Body weight loss
/ Cold-Shock Response - genetics
/ Diet
/ Diet, Protein-Restricted
/ Dietary restrictions
/ Eating
/ Energy expenditure
/ Energy Metabolism - genetics
/ Fibroblast growth factors
/ Fibroblast Growth Factors - genetics
/ Fibroblast Growth Factors - metabolism
/ Food
/ Food intake
/ Gene Deletion
/ Gene Expression Regulation
/ Humanities and Social Sciences
/ Hyperphagia
/ Low protein diet
/ Male
/ Metabolism
/ Mice
/ Mice, Knockout
/ multidisciplinary
/ Nutrient deficiency
/ Oxygen Consumption
/ Proteins
/ Rodents
/ Science
/ Science (multidisciplinary)
/ Thermogenesis - genetics
/ Uncoupling protein 1
/ Uncoupling Protein 1 - genetics
/ Uncoupling Protein 1 - metabolism
/ Weight Loss
2017
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Low protein-induced increases in FGF21 drive UCP1-dependent metabolic but not thermoregulatory endpoints
Journal Article
Low protein-induced increases in FGF21 drive UCP1-dependent metabolic but not thermoregulatory endpoints
2017
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Overview
Dietary protein restriction increases adipose tissue uncoupling protein 1 (UCP1), energy expenditure and food intake, and these effects require the metabolic hormone fibroblast growth factor 21 (FGF21). Here we test whether the induction of energy expenditure during protein restriction requires UCP1, promotes a resistance to cold stress, and is dependent on the concomitant hyperphagia. Wildtype,
Ucp1-
KO and
Fgf21-
KO mice were placed on control and low protein (LP) diets to assess changes in energy expenditure, food intake and other metabolic endpoints. Deletion of
Ucp1
blocked LP-induced increases in energy expenditure and food intake, and exacerbated LP-induced weight loss. While LP diet increased energy expenditure and
Ucp1
expression in an FGF21-dependent manner, neither LP diet nor the deletion of
Fgf21
influenced sensitivity to acute cold stress. Finally, LP-induced energy expenditure occurred even in the absence of hyperphagia. Increased energy expenditure is a primary metabolic effect of dietary protein restriction, and requires both UCP1 and FGF21 but is independent of changes in food intake. However, the FGF21-dependent increase in UCP1 and energy expenditure by LP has no effect on the ability to acutely respond to cold stress, suggesting that LP-induced increases in FGF21 impact metabolic but not thermogenic endpoints.
Publisher
Nature Publishing Group UK,Nature Publishing Group,Nature Portfolio
Subject
/ 64
/ 64/60
/ 82/80
/ Animals
/ Cold-Shock Response - genetics
/ Diet
/ Eating
/ Energy Metabolism - genetics
/ Fibroblast Growth Factors - genetics
/ Fibroblast Growth Factors - metabolism
/ Food
/ Humanities and Social Sciences
/ Male
/ Mice
/ Proteins
/ Rodents
/ Science
/ Uncoupling Protein 1 - genetics
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