Characterizing the metabolic perturbations induced by activity-based anorexia in the C57Bl/6 mouse using 1H NMR spectroscopy
Characterizing the metabolic perturbations induced by activity-based anorexia in the C57Bl/6 mouse using 1H NMR spectroscopy
BACKGROUND & AIMS: Anorexia nervosa (AN) is a severe psychological and potentially life-threatening eating disorder. The activity-based anorexia (ABA) mouse model is commonly used to investigate physiological abnormalities associated with this disorder. Characterizing the holistic biochemical alterations induced by anorexia is essential to understanding AN pathophysiology as well as to define biomarkers for prognosis.
METHODS: To unravel the adaptive biochemical mechanisms occurring in this model in response to self-starvation, the urinary, plasma and fecal metabolic phenotypes of mice under different experimental conditions were compared. This included control mice with and without physical activity (CT and CTPA mice), a group with limited food access (LFA), and a group with both limited food access and physical activity (ABA). Using 1H nuclear magnetic resonance (NMR) spectroscopy, several biochemical perturbations were observed.
RESULTS: Physical activity altered the abundance of 14 fecal metabolites, including those involved in gut microbial metabolism and proteolysis. Food restriction disrupted a wide range of metabolic pathways including gut microbial metabolism, proteolysis and fatty acid breakdown (24 urinary and 6 plasma metabolites). The combined impact of food restriction and physical activity resulted in the same pattern of metabolic disruption (24 urine, 6 plasma).
CONCLUSIONS: This work defined the metabolic signatures of ABA mice and provides novel insights into biological adaptations of mice in response to both food restriction and physical activity. These results should be further confirmed in AN patients.
Breton, Jonathan
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Giallourou, Natasa
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Nobis, Severine
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Morin, Aline
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Achamrah, Najate
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Goichon, Alexis
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Belmonte, Liliana
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Dechelotte, Pierre
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Rego, Jean-Luc do
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Coëffier, Moïse
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Swann, Jonathan
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Breton, Jonathan
38205334-7c1f-4a45-aef9-f7fb17ad571d
Giallourou, Natasa
b5891ea7-98d4-49d7-b883-2c57ca2d962a
Nobis, Severine
3d6e9d15-e338-4940-bf81-76d9e3f99829
Morin, Aline
a10d92c9-813e-4f3b-8d24-ff207fbc6b5d
Achamrah, Najate
6415b22e-eb38-4677-9d31-c5ba5b8f9f69
Goichon, Alexis
23b21bc3-698d-4118-8819-82d9276b2f37
Belmonte, Liliana
d60254e9-81e4-4b32-a859-4ee61961054a
Dechelotte, Pierre
170922f0-6e30-416c-9dcc-e4c83f21dc4f
Rego, Jean-Luc do
0c5c947e-5015-4cbd-8355-43a3211fa66e
Coëffier, Moïse
f8e2446d-296d-4bc2-bc02-1d04c1b99409
Swann, Jonathan
7c11a66b-f4b8-4dbf-aa17-ad8b0561b85c
Breton, Jonathan, Giallourou, Natasa, Nobis, Severine, Morin, Aline, Achamrah, Najate, Goichon, Alexis, Belmonte, Liliana, Dechelotte, Pierre, Rego, Jean-Luc do, Coëffier, Moïse and Swann, Jonathan
(2019)
Characterizing the metabolic perturbations induced by activity-based anorexia in the C57Bl/6 mouse using 1H NMR spectroscopy.
Clinical Nutrition.
(doi:10.1016/j.clnu.2019.10.026).
Abstract
BACKGROUND & AIMS: Anorexia nervosa (AN) is a severe psychological and potentially life-threatening eating disorder. The activity-based anorexia (ABA) mouse model is commonly used to investigate physiological abnormalities associated with this disorder. Characterizing the holistic biochemical alterations induced by anorexia is essential to understanding AN pathophysiology as well as to define biomarkers for prognosis.
METHODS: To unravel the adaptive biochemical mechanisms occurring in this model in response to self-starvation, the urinary, plasma and fecal metabolic phenotypes of mice under different experimental conditions were compared. This included control mice with and without physical activity (CT and CTPA mice), a group with limited food access (LFA), and a group with both limited food access and physical activity (ABA). Using 1H nuclear magnetic resonance (NMR) spectroscopy, several biochemical perturbations were observed.
RESULTS: Physical activity altered the abundance of 14 fecal metabolites, including those involved in gut microbial metabolism and proteolysis. Food restriction disrupted a wide range of metabolic pathways including gut microbial metabolism, proteolysis and fatty acid breakdown (24 urinary and 6 plasma metabolites). The combined impact of food restriction and physical activity resulted in the same pattern of metabolic disruption (24 urine, 6 plasma).
CONCLUSIONS: This work defined the metabolic signatures of ABA mice and provides novel insights into biological adaptations of mice in response to both food restriction and physical activity. These results should be further confirmed in AN patients.
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Accepted/In Press date: 25 October 2019
e-pub ahead of print date: 6 December 2019
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Local EPrints ID: 441423
URI: http://eprints.soton.ac.uk/id/eprint/441423
ISSN: 0261-5614
PURE UUID: 094bac4e-593d-4384-9f1d-1a9e79186c2b
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Date deposited: 11 Jun 2020 16:41
Last modified: 17 Mar 2024 04:00
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Contributors
Author:
Jonathan Breton
Author:
Natasa Giallourou
Author:
Severine Nobis
Author:
Aline Morin
Author:
Najate Achamrah
Author:
Alexis Goichon
Author:
Liliana Belmonte
Author:
Pierre Dechelotte
Author:
Jean-Luc do Rego
Author:
Moïse Coëffier
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