Depressed Levels of Prostaglandin F2 in Mice Lacking Akr1b7 Increase Basal Adiposity and Predispose to Diet-Induced Obesity

Depressed Levels of Prostaglandin F2 in Mice Lacking Akr1b7 Increase Basal Adiposity and Predispose to Diet-Induced Obesity

Negative regulators of white adipose tissue (WAT) expansion are poorly documented in vivo. Prostaglandin F-2 alpha (PGF(2 alpha)) is a potent antiadipogenic factor in cultured preadipocytes, but evidence for its involvement in physiological context is lacking. We previously reported that Akr1b7, an...

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Veröffentlicht in:Diabetes (New York, N.Y.) N.Y.), 2012-10, Vol.61 (11), p.2796-2806
Hauptverfasser: Volat, F., Pointud, J.-C., Pastel, E., Morio, B., Sion, B., Hamard, G., Guichardant, M., Colas, R., Lefrancois-Martinez, M., Martinez, A.
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Animal genetics
Biochemistry, Molecular Biology
Cancer
Development Biology
Embryology and Organogenesis
Endocrinology and metabolism
Genetics
Genomics
Human health and pathology
Life Sciences
Molecular biology
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container_end_page 2806
container_issue 11
container_start_page 2796
container_title Diabetes (New York, N.Y.)
container_volume 61
creator Volat, F.
Pointud, J.-C.
Pastel, E.
Morio, B.
Sion, B.
Hamard, G.
Guichardant, M.
Colas, R.
Lefrancois-Martinez, M.
Martinez, A.
description Negative regulators of white adipose tissue (WAT) expansion are poorly documented in vivo. Prostaglandin F-2 alpha (PGF(2 alpha)) is a potent antiadipogenic factor in cultured preadipocytes, but evidence for its involvement in physiological context is lacking. We previously reported that Akr1b7, an aldo-keto reductase enriched in adipose stromal vascular fraction but absent from mature adipocytes, has antiadipogenic properties possibly supported by PGF(2 alpha) synthase activity. To test whether lack of Akr1b7 could influence WAT homeostasis in vivo, we generated Akr1b7(-/-) mice in 129/Sv background. Akr1b7(-/-) mice displayed excessive basal adiposity resulting from adipocyte hyperplasia/hypertrophy and exhibited greater sensitivity to diet-induced obesity. Following adipose enlargement and irrespective of the diet, they developed liver steatosis and progressive insulin resistance. Akr1b7 loss was associated with decreased PGF(2 alpha) WAT contents. Cloprostenol (PGF(2 alpha) agonist) administration to Akr1b7(-/-) normalized WAT expansion by affecting both de novo adipocyte differentiation and size. Treatment of 3T3-L1 adipocytes and Akr1b7(-/-) mice with cloprostenol suggested that decreased adipocyte size resulted from inhibition of lipogenic gene expression. Hence, Akr1b7 is a major regulator of WAT development through at least two PGF(2 alpha)-dependent mechanisms: inhibition of adipogenesis and lipogenesis. These findings provide molecular rationale to explore the status of aldo-keto reductases in dysregulations of adipose tissue homeostasis. Diabetes 61:2796-2806, 2012
doi_str_mv 10.2337/db11-1297
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Prostaglandin F-2 alpha (PGF(2 alpha)) is a potent antiadipogenic factor in cultured preadipocytes, but evidence for its involvement in physiological context is lacking. We previously reported that Akr1b7, an aldo-keto reductase enriched in adipose stromal vascular fraction but absent from mature adipocytes, has antiadipogenic properties possibly supported by PGF(2 alpha) synthase activity. To test whether lack of Akr1b7 could influence WAT homeostasis in vivo, we generated Akr1b7(-/-) mice in 129/Sv background. Akr1b7(-/-) mice displayed excessive basal adiposity resulting from adipocyte hyperplasia/hypertrophy and exhibited greater sensitivity to diet-induced obesity. Following adipose enlargement and irrespective of the diet, they developed liver steatosis and progressive insulin resistance. Akr1b7 loss was associated with decreased PGF(2 alpha) WAT contents. Cloprostenol (PGF(2 alpha) agonist) administration to Akr1b7(-/-) normalized WAT expansion by affecting both de novo adipocyte differentiation and size. Treatment of 3T3-L1 adipocytes and Akr1b7(-/-) mice with cloprostenol suggested that decreased adipocyte size resulted from inhibition of lipogenic gene expression. Hence, Akr1b7 is a major regulator of WAT development through at least two PGF(2 alpha)-dependent mechanisms: inhibition of adipogenesis and lipogenesis. These findings provide molecular rationale to explore the status of aldo-keto reductases in dysregulations of adipose tissue homeostasis. 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Cloprostenol (PGF(2 alpha) agonist) administration to Akr1b7(-/-) normalized WAT expansion by affecting both de novo adipocyte differentiation and size. Treatment of 3T3-L1 adipocytes and Akr1b7(-/-) mice with cloprostenol suggested that decreased adipocyte size resulted from inhibition of lipogenic gene expression. Hence, Akr1b7 is a major regulator of WAT development through at least two PGF(2 alpha)-dependent mechanisms: inhibition of adipogenesis and lipogenesis. These findings provide molecular rationale to explore the status of aldo-keto reductases in dysregulations of adipose tissue homeostasis. 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Prostaglandin F-2 alpha (PGF(2 alpha)) is a potent antiadipogenic factor in cultured preadipocytes, but evidence for its involvement in physiological context is lacking. We previously reported that Akr1b7, an aldo-keto reductase enriched in adipose stromal vascular fraction but absent from mature adipocytes, has antiadipogenic properties possibly supported by PGF(2 alpha) synthase activity. To test whether lack of Akr1b7 could influence WAT homeostasis in vivo, we generated Akr1b7(-/-) mice in 129/Sv background. Akr1b7(-/-) mice displayed excessive basal adiposity resulting from adipocyte hyperplasia/hypertrophy and exhibited greater sensitivity to diet-induced obesity. Following adipose enlargement and irrespective of the diet, they developed liver steatosis and progressive insulin resistance. Akr1b7 loss was associated with decreased PGF(2 alpha) WAT contents. Cloprostenol (PGF(2 alpha) agonist) administration to Akr1b7(-/-) normalized WAT expansion by affecting both de novo adipocyte differentiation and size. Treatment of 3T3-L1 adipocytes and Akr1b7(-/-) mice with cloprostenol suggested that decreased adipocyte size resulted from inhibition of lipogenic gene expression. Hence, Akr1b7 is a major regulator of WAT development through at least two PGF(2 alpha)-dependent mechanisms: inhibition of adipogenesis and lipogenesis. These findings provide molecular rationale to explore the status of aldo-keto reductases in dysregulations of adipose tissue homeostasis. Diabetes 61:2796-2806, 2012</abstract><pub>American Diabetes Association</pub><pmid>22851578</pmid><doi>10.2337/db11-1297</doi></addata></record>
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source Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; PubMed Central; Journals@Ovid Complete
subjects Animal genetics
Biochemistry, Molecular Biology
Cancer
Development Biology
Embryology and Organogenesis
Endocrinology and metabolism
Genetics
Genomics
Human health and pathology
Life Sciences
Molecular biology
title Depressed Levels of Prostaglandin F2 in Mice Lacking Akr1b7 Increase Basal Adiposity and Predispose to Diet-Induced Obesity
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