Investigating mechanisms underpinning the detrimental impact of a high-fat diet in the developing and adult hypermuscular myostatin null mouse
Investigating mechanisms underpinning the detrimental impact of a high-fat diet in the developing and adult hypermuscular myostatin null mouse
BACKGROUND: Obese adults are prone to develop metabolic and cardiovascular diseases. Furthermore, over-weight expectant mothers give birth to large babies who also have increased likelihood of developing metabolic and cardiovascular diseases. Fundamental advancements to better understand the pathophysiology of obesity are critical in the development of anti-obesity therapies not only for this but also future generations. Skeletal muscle plays a major role in fat metabolism and much work has focused in promoting this activity in order to control the development of obesity. Research has evaluated myostatin inhibition as a strategy to prevent the development of obesity and concluded in some cases that it offers a protective mechanism against a high-fat diet.
METHODS: Pregnant as well as virgin myostatin null mice and age matched wild type animals were raised on a high fat diet for up to 10 weeks. The effect of the diet was tested on skeletal muscle, liver and fat. Quantitate PCR, Western blotting, immunohistochemistry, in-vivo and ex-vivo muscle characterisation, metabonomic and lipidomic measurements were from the four major cohorts.
RESULTS: We hypothesised that myostatin inhibition should protect not only the mother but also its developing foetus from the detrimental effects of a high-fat diet. Unexpectedly, we found muscle development was attenuated in the foetus of myostatin null mice raised on a high-fat diet. We therefore re-examined the effect of the high-fat diet on adults and found myostatin null mice were more susceptible to diet-induced obesity through a mechanism involving impairment of inter-organ fat utilization.
CONCLUSIONS: Loss of myostatin alters fatty acid uptake and oxidation in skeletal muscle and liver. We show that abnormally high metabolic activity of fat in myostatin null mice is decreased by a high-fat diet resulting in excessive adipose deposition and lipotoxicity. Collectively, our genetic loss-of-function studies offer an explanation of the lean phenotype displayed by a host of animals lacking myostatin signalling.
1-21
Matsakas, Antonios
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Prosdocimo, Domenick A
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Mitchell, Robert
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Collins-Hooper, Henry
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Giallourou, Natasa
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Swann, Jonathan R.
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Potter, Paul
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Epting, Thomas
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Jain, Mukesh K
4ceadc11-93da-448b-8457-9fcdc4f74db5
Patel, Ketan
b2b42f1a-599d-4747-9246-69379bf6648f
2015
Matsakas, Antonios
9afcce5e-16e6-45a6-8031-1f755cad6a36
Prosdocimo, Domenick A
7b56b9c3-8852-47ce-b489-db7ee442e35a
Mitchell, Robert
3b8341fb-2676-4ce0-af81-3d253405be3f
Collins-Hooper, Henry
d1b74880-833c-4797-b2de-4f4e420ffecb
Giallourou, Natasa
b5891ea7-98d4-49d7-b883-2c57ca2d962a
Swann, Jonathan R.
7c11a66b-f4b8-4dbf-aa17-ad8b0561b85c
Potter, Paul
9a085722-7674-46ef-a044-c1502c873bda
Epting, Thomas
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Jain, Mukesh K
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Patel, Ketan
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Matsakas, Antonios, Prosdocimo, Domenick A, Mitchell, Robert, Collins-Hooper, Henry, Giallourou, Natasa, Swann, Jonathan R., Potter, Paul, Epting, Thomas, Jain, Mukesh K and Patel, Ketan
(2015)
Investigating mechanisms underpinning the detrimental impact of a high-fat diet in the developing and adult hypermuscular myostatin null mouse.
Skeletal Muscle, 5, , [38].
(doi:10.1186/s13395-015-0063-5).
Abstract
BACKGROUND: Obese adults are prone to develop metabolic and cardiovascular diseases. Furthermore, over-weight expectant mothers give birth to large babies who also have increased likelihood of developing metabolic and cardiovascular diseases. Fundamental advancements to better understand the pathophysiology of obesity are critical in the development of anti-obesity therapies not only for this but also future generations. Skeletal muscle plays a major role in fat metabolism and much work has focused in promoting this activity in order to control the development of obesity. Research has evaluated myostatin inhibition as a strategy to prevent the development of obesity and concluded in some cases that it offers a protective mechanism against a high-fat diet.
METHODS: Pregnant as well as virgin myostatin null mice and age matched wild type animals were raised on a high fat diet for up to 10 weeks. The effect of the diet was tested on skeletal muscle, liver and fat. Quantitate PCR, Western blotting, immunohistochemistry, in-vivo and ex-vivo muscle characterisation, metabonomic and lipidomic measurements were from the four major cohorts.
RESULTS: We hypothesised that myostatin inhibition should protect not only the mother but also its developing foetus from the detrimental effects of a high-fat diet. Unexpectedly, we found muscle development was attenuated in the foetus of myostatin null mice raised on a high-fat diet. We therefore re-examined the effect of the high-fat diet on adults and found myostatin null mice were more susceptible to diet-induced obesity through a mechanism involving impairment of inter-organ fat utilization.
CONCLUSIONS: Loss of myostatin alters fatty acid uptake and oxidation in skeletal muscle and liver. We show that abnormally high metabolic activity of fat in myostatin null mice is decreased by a high-fat diet resulting in excessive adipose deposition and lipotoxicity. Collectively, our genetic loss-of-function studies offer an explanation of the lean phenotype displayed by a host of animals lacking myostatin signalling.
Text
s13395-015-0063-5
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Accepted/In Press date: 23 October 2015
e-pub ahead of print date: 7 December 2015
Published date: 2015
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Local EPrints ID: 441554
URI: http://eprints.soton.ac.uk/id/eprint/441554
ISSN: 2044-5040
PURE UUID: e884b5e3-0701-45d2-a8e3-eb9e50c6d146
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Date deposited: 17 Jun 2020 16:36
Last modified: 17 Mar 2024 04:00
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Contributors
Author:
Antonios Matsakas
Author:
Domenick A Prosdocimo
Author:
Robert Mitchell
Author:
Henry Collins-Hooper
Author:
Natasa Giallourou
Author:
Paul Potter
Author:
Thomas Epting
Author:
Mukesh K Jain
Author:
Ketan Patel
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