Deletion of murine Arv1 results in a lean phenotype with increased energy expenditure

W. R. Lagor; F. Tong; K. E. Jarrett; W. Lin; D. M. Conlon; M. Smith; M. Y. Wang; B. O. Yenilmez; M. G. McCoy; D. W. Fields; S. M. O'Neill; R. Gupta; A. Kumaravel; V. Redon; R. S. Ahima; S. L. Sturley; J. T. Billheimer; D. J. Rader

doi:10.1038/nutd.2015.32

Deletion of murine Arv1 results in a lean phenotype with increased energy expenditure

W. R. Lagor, F. Tong, K. E. Jarrett, W. Lin, D. M. Conlon, M. Smith, M. Y. Wang, B. O. Yenilmez, M. G. McCoy, D. W. Fields, S. M. O'Neill, R. Gupta, A. Kumaravel, V. Redon, R. S. Ahima, S. L. Sturley, J. T. Billheimer, D. J. Rader

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

BACKGROUND: ACAT-related enzyme 2 required for viability 1 (ARV1) is a putative lipid transporter of the endoplasmic reticulum that is conserved across eukaryotic species. The ARV1 protein contains a conserved N-terminal cytosolic zinc ribbon motif known as the ARV1 homology domain, followed by multiple transmembrane regions anchoring it in the ER. Deletion of ARV1 in yeast results in defective sterol trafficking, aberrant lipid synthesis, ER stress, membrane disorganization and hypersensitivity to fatty acids (FAs). We sought to investigate the role of Arv1 in mammalian lipid metabolism. METHODS: Homologous recombination was used to disrupt the Arv1 gene in mice. Animals were examined for alterations in lipid and lipoprotein levels, body weight, body composition, glucose tolerance and energy expenditure. RESULTS: Global loss of Arv1 significantly decreased total cholesterol and high-density lipoprotein cholesterol levels in the plasma. Arv1 knockout mice exhibited a dramatic lean phenotype, with major reductions in white adipose tissue (WAT) mass and body weight on a chow diet. This loss of WAT is accompanied by improved glucose tolerance, higher adiponectin levels, increased energy expenditure and greater rates of whole-body FA oxidation. CONCLUSIONS: This work identifies Arv1 as an important player in mammalian lipid metabolism and whole-body energy homeostasis.

Original language	English (US)
Article number	e181
Journal	Nutrition and Diabetes
Volume	5
Issue number	10
DOIs	https://doi.org/10.1038/nutd.2015.32
State	Published - Oct 19 2015
Externally published	Yes

ASJC Scopus subject areas

Internal Medicine
Endocrinology, Diabetes and Metabolism

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Lagor, W. R., Tong, F., Jarrett, K. E., Lin, W., Conlon, D. M., Smith, M., Wang, M. Y., Yenilmez, B. O., McCoy, M. G., Fields, D. W., O'Neill, S. M., Gupta, R., Kumaravel, A., Redon, V., Ahima, R. S., Sturley, S. L., Billheimer, J. T., & Rader, D. J. (2015). Deletion of murine Arv1 results in a lean phenotype with increased energy expenditure. Nutrition and Diabetes, 5(10), Article e181. https://doi.org/10.1038/nutd.2015.32

Lagor, WR, Tong, F, Jarrett, KE, Lin, W, Conlon, DM, Smith, M, Wang, MY, Yenilmez, BO, McCoy, MG, Fields, DW, O'Neill, SM, Gupta, R, Kumaravel, A, Redon, V, Ahima, RS, Sturley, SL, Billheimer, JT & Rader, DJ 2015, 'Deletion of murine Arv1 results in a lean phenotype with increased energy expenditure', Nutrition and Diabetes, vol. 5, no. 10, e181. https://doi.org/10.1038/nutd.2015.32

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title = "Deletion of murine Arv1 results in a lean phenotype with increased energy expenditure",

abstract = "BACKGROUND: ACAT-related enzyme 2 required for viability 1 (ARV1) is a putative lipid transporter of the endoplasmic reticulum that is conserved across eukaryotic species. The ARV1 protein contains a conserved N-terminal cytosolic zinc ribbon motif known as the ARV1 homology domain, followed by multiple transmembrane regions anchoring it in the ER. Deletion of ARV1 in yeast results in defective sterol trafficking, aberrant lipid synthesis, ER stress, membrane disorganization and hypersensitivity to fatty acids (FAs). We sought to investigate the role of Arv1 in mammalian lipid metabolism. METHODS: Homologous recombination was used to disrupt the Arv1 gene in mice. Animals were examined for alterations in lipid and lipoprotein levels, body weight, body composition, glucose tolerance and energy expenditure. RESULTS: Global loss of Arv1 significantly decreased total cholesterol and high-density lipoprotein cholesterol levels in the plasma. Arv1 knockout mice exhibited a dramatic lean phenotype, with major reductions in white adipose tissue (WAT) mass and body weight on a chow diet. This loss of WAT is accompanied by improved glucose tolerance, higher adiponectin levels, increased energy expenditure and greater rates of whole-body FA oxidation. CONCLUSIONS: This work identifies Arv1 as an important player in mammalian lipid metabolism and whole-body energy homeostasis.",

author = "Lagor, {W. R.} and F. Tong and Jarrett, {K. E.} and W. Lin and Conlon, {D. M.} and M. Smith and Wang, {M. Y.} and Yenilmez, {B. O.} and McCoy, {M. G.} and Fields, {D. W.} and O'Neill, {S. M.} and R. Gupta and A. Kumaravel and V. Redon and Ahima, {R. S.} and Sturley, {S. L.} and Billheimer, {J. T.} and Rader, {D. J.}",

note = "Funding Information: This work was supported by a National Scientist Development grant from the American Heart Association—11SDG7210077 (WRL), a mentor-based postdoctoral fellowship from the American Diabetes Association (ADA)—7-09-MN-41 (DJR), an undergraduate summer research fellowship from ADA (MS) and the Bristol Myers Squibb {\textquoteleft}Freedom to Discover{\textquoteright} Unrestricted Cardiovascular Research Grant (to DJR), the University of Pennsylvania Diabetes Research Center (DRC) Mouse Phenotyping, Physiology and Metabolism Core (P30-DK19525), the Penn Cardiovascular Institute Histology and Gene Expression Core and the Texas Medical Center Digestive Diseases Center {\textquoteleft}Core B—Cellular and Molecular Morphology{\textquoteright} (P30 DK56338)",

year = "2015",

month = oct,

day = "19",

doi = "10.1038/nutd.2015.32",

language = "English (US)",

volume = "5",

journal = "Nutrition and Diabetes",

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T1 - Deletion of murine Arv1 results in a lean phenotype with increased energy expenditure

AU - Lagor, W. R.

AU - Tong, F.

AU - Jarrett, K. E.

AU - Lin, W.

AU - Conlon, D. M.

AU - Smith, M.

AU - Wang, M. Y.

AU - Yenilmez, B. O.

AU - McCoy, M. G.

AU - Fields, D. W.

AU - O'Neill, S. M.

AU - Gupta, R.

AU - Kumaravel, A.

AU - Redon, V.

AU - Ahima, R. S.

AU - Sturley, S. L.

AU - Billheimer, J. T.

AU - Rader, D. J.

N1 - Funding Information: This work was supported by a National Scientist Development grant from the American Heart Association—11SDG7210077 (WRL), a mentor-based postdoctoral fellowship from the American Diabetes Association (ADA)—7-09-MN-41 (DJR), an undergraduate summer research fellowship from ADA (MS) and the Bristol Myers Squibb ‘Freedom to Discover’ Unrestricted Cardiovascular Research Grant (to DJR), the University of Pennsylvania Diabetes Research Center (DRC) Mouse Phenotyping, Physiology and Metabolism Core (P30-DK19525), the Penn Cardiovascular Institute Histology and Gene Expression Core and the Texas Medical Center Digestive Diseases Center ‘Core B—Cellular and Molecular Morphology’ (P30 DK56338)

PY - 2015/10/19

Y1 - 2015/10/19

N2 - BACKGROUND: ACAT-related enzyme 2 required for viability 1 (ARV1) is a putative lipid transporter of the endoplasmic reticulum that is conserved across eukaryotic species. The ARV1 protein contains a conserved N-terminal cytosolic zinc ribbon motif known as the ARV1 homology domain, followed by multiple transmembrane regions anchoring it in the ER. Deletion of ARV1 in yeast results in defective sterol trafficking, aberrant lipid synthesis, ER stress, membrane disorganization and hypersensitivity to fatty acids (FAs). We sought to investigate the role of Arv1 in mammalian lipid metabolism. METHODS: Homologous recombination was used to disrupt the Arv1 gene in mice. Animals were examined for alterations in lipid and lipoprotein levels, body weight, body composition, glucose tolerance and energy expenditure. RESULTS: Global loss of Arv1 significantly decreased total cholesterol and high-density lipoprotein cholesterol levels in the plasma. Arv1 knockout mice exhibited a dramatic lean phenotype, with major reductions in white adipose tissue (WAT) mass and body weight on a chow diet. This loss of WAT is accompanied by improved glucose tolerance, higher adiponectin levels, increased energy expenditure and greater rates of whole-body FA oxidation. CONCLUSIONS: This work identifies Arv1 as an important player in mammalian lipid metabolism and whole-body energy homeostasis.

AB - BACKGROUND: ACAT-related enzyme 2 required for viability 1 (ARV1) is a putative lipid transporter of the endoplasmic reticulum that is conserved across eukaryotic species. The ARV1 protein contains a conserved N-terminal cytosolic zinc ribbon motif known as the ARV1 homology domain, followed by multiple transmembrane regions anchoring it in the ER. Deletion of ARV1 in yeast results in defective sterol trafficking, aberrant lipid synthesis, ER stress, membrane disorganization and hypersensitivity to fatty acids (FAs). We sought to investigate the role of Arv1 in mammalian lipid metabolism. METHODS: Homologous recombination was used to disrupt the Arv1 gene in mice. Animals were examined for alterations in lipid and lipoprotein levels, body weight, body composition, glucose tolerance and energy expenditure. RESULTS: Global loss of Arv1 significantly decreased total cholesterol and high-density lipoprotein cholesterol levels in the plasma. Arv1 knockout mice exhibited a dramatic lean phenotype, with major reductions in white adipose tissue (WAT) mass and body weight on a chow diet. This loss of WAT is accompanied by improved glucose tolerance, higher adiponectin levels, increased energy expenditure and greater rates of whole-body FA oxidation. CONCLUSIONS: This work identifies Arv1 as an important player in mammalian lipid metabolism and whole-body energy homeostasis.

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JO - Nutrition and Diabetes

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Deletion of murine Arv1 results in a lean phenotype with increased energy expenditure

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