Apelin treatment increases complete fatty acid oxidation, mitochondrial oxidative capacity, and biogenesis in muscle of insulin-resistant mice

Camille Attané; Camille Foussal; Sophie Le Gonidec; Alexandre Benani; Danièle Daviaud; Estelle Wanecq; Rocío Guzmán-Ruiz; Cédric Dray; Veronic Bezaire; Chloé Rancoule; Keiji Kuba; Mariano Ruiz-Gayo; Thierry Levade; Josef Penninger; Rémy Burcelin; Luc Pénicaud; Philippe Valet; Isabelle Castan-Laurell

doi:10.2337/db11-0100

Apelin treatment increases complete fatty acid oxidation, mitochondrial oxidative capacity, and biogenesis in muscle of insulin-resistant mice

Camille Attané, Camille Foussal, Sophie Le Gonidec, Alexandre Benani, Danièle Daviaud, Estelle Wanecq, Rocío Guzmán-Ruiz, Cédric Dray, Veronic Bezaire, Chloé Rancoule, Keiji Kuba, Mariano Ruiz-Gayo, Thierry Levade, Josef Penninger, Rémy Burcelin, Luc Pénicaud, Philippe Valet, Isabelle Castan-Laurell

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

149 Citations (Scopus)

Abstract

Both acute and chronic apelin treatment have been shown to improve insulin sensitivity in mice. However, the effects of apelin on fatty acid oxidation (FAO) during obesity-related insulin resistance have not yet been addressed. Thus, the aim of the current study was to determine the impact of chronic treatment on lipid use, especially in skeletal muscles. High-fat diet (HFD)- induced obese and insulin-resistant mice treated by an apelin injection (0.1 μmol/kg/day i.p.) during 4 weeks had decreased fat mass, glycemia, and plasma levels of triglycerides and were protected from hyperinsulinemia compared with HFD PBS-treated mice. Indirect calorimetry experiments showed that apelin-treated mice had a better use of lipids. The complete FAO, the oxidative capacity, and mitochondrial biogenesis were increased in soleus of apelin-treated mice. The action of apelin was AMP-activated protein kinase (AMPK) dependent since all the effects studied were abrogated in HFD apelin-treated mice with muscle-specific inactive AMPK. Finally, the apelin-stimulated improvement of oxidative capacity led to decreased levels of acylcarnitines and enhanced insulin-stimulated glucose uptake in soleus. Thus, by promoting complete lipid use in muscle of insulin-resistant mice through mitochondrial biogenesis and tighter matching between FAO and the tricarboxylic acid cycle, apelin treatment could contribute to insulin sensitivity improvement.

Original language	English
Pages (from-to)	310-320
Number of pages	11
Journal	Diabetes
Volume	61
Issue number	2
DOIs	https://doi.org/10.2337/db11-0100
Publication status	Published - Feb 2012
Externally published	Yes

All Science Journal Classification (ASJC) codes

Internal Medicine
Endocrinology, Diabetes and Metabolism

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10.2337/db11-0100

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Attané, C., Foussal, C., Le Gonidec, S., Benani, A., Daviaud, D., Wanecq, E., Guzmán-Ruiz, R., Dray, C., Bezaire, V., Rancoule, C., Kuba, K., Ruiz-Gayo, M., Levade, T., Penninger, J., Burcelin, R., Pénicaud, L., Valet, P., & Castan-Laurell, I. (2012). Apelin treatment increases complete fatty acid oxidation, mitochondrial oxidative capacity, and biogenesis in muscle of insulin-resistant mice. Diabetes, 61(2), 310-320. https://doi.org/10.2337/db11-0100

Attané, C, Foussal, C, Le Gonidec, S, Benani, A, Daviaud, D, Wanecq, E, Guzmán-Ruiz, R, Dray, C, Bezaire, V, Rancoule, C, Kuba, K, Ruiz-Gayo, M, Levade, T, Penninger, J, Burcelin, R, Pénicaud, L, Valet, P & Castan-Laurell, I 2012, 'Apelin treatment increases complete fatty acid oxidation, mitochondrial oxidative capacity, and biogenesis in muscle of insulin-resistant mice', Diabetes, vol. 61, no. 2, pp. 310-320. https://doi.org/10.2337/db11-0100

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title = "Apelin treatment increases complete fatty acid oxidation, mitochondrial oxidative capacity, and biogenesis in muscle of insulin-resistant mice",

abstract = "Both acute and chronic apelin treatment have been shown to improve insulin sensitivity in mice. However, the effects of apelin on fatty acid oxidation (FAO) during obesity-related insulin resistance have not yet been addressed. Thus, the aim of the current study was to determine the impact of chronic treatment on lipid use, especially in skeletal muscles. High-fat diet (HFD)- induced obese and insulin-resistant mice treated by an apelin injection (0.1 μmol/kg/day i.p.) during 4 weeks had decreased fat mass, glycemia, and plasma levels of triglycerides and were protected from hyperinsulinemia compared with HFD PBS-treated mice. Indirect calorimetry experiments showed that apelin-treated mice had a better use of lipids. The complete FAO, the oxidative capacity, and mitochondrial biogenesis were increased in soleus of apelin-treated mice. The action of apelin was AMP-activated protein kinase (AMPK) dependent since all the effects studied were abrogated in HFD apelin-treated mice with muscle-specific inactive AMPK. Finally, the apelin-stimulated improvement of oxidative capacity led to decreased levels of acylcarnitines and enhanced insulin-stimulated glucose uptake in soleus. Thus, by promoting complete lipid use in muscle of insulin-resistant mice through mitochondrial biogenesis and tighter matching between FAO and the tricarboxylic acid cycle, apelin treatment could contribute to insulin sensitivity improvement.",

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AU - Attané, Camille

AU - Foussal, Camille

AU - Le Gonidec, Sophie

AU - Benani, Alexandre

AU - Daviaud, Danièle

AU - Wanecq, Estelle

AU - Guzmán-Ruiz, Rocío

AU - Dray, Cédric

AU - Bezaire, Veronic

AU - Rancoule, Chloé

AU - Kuba, Keiji

AU - Ruiz-Gayo, Mariano

AU - Levade, Thierry

AU - Penninger, Josef

AU - Burcelin, Rémy

AU - Pénicaud, Luc

AU - Valet, Philippe

AU - Castan-Laurell, Isabelle

PY - 2012/2

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AB - Both acute and chronic apelin treatment have been shown to improve insulin sensitivity in mice. However, the effects of apelin on fatty acid oxidation (FAO) during obesity-related insulin resistance have not yet been addressed. Thus, the aim of the current study was to determine the impact of chronic treatment on lipid use, especially in skeletal muscles. High-fat diet (HFD)- induced obese and insulin-resistant mice treated by an apelin injection (0.1 μmol/kg/day i.p.) during 4 weeks had decreased fat mass, glycemia, and plasma levels of triglycerides and were protected from hyperinsulinemia compared with HFD PBS-treated mice. Indirect calorimetry experiments showed that apelin-treated mice had a better use of lipids. The complete FAO, the oxidative capacity, and mitochondrial biogenesis were increased in soleus of apelin-treated mice. The action of apelin was AMP-activated protein kinase (AMPK) dependent since all the effects studied were abrogated in HFD apelin-treated mice with muscle-specific inactive AMPK. Finally, the apelin-stimulated improvement of oxidative capacity led to decreased levels of acylcarnitines and enhanced insulin-stimulated glucose uptake in soleus. Thus, by promoting complete lipid use in muscle of insulin-resistant mice through mitochondrial biogenesis and tighter matching between FAO and the tricarboxylic acid cycle, apelin treatment could contribute to insulin sensitivity improvement.

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Apelin treatment increases complete fatty acid oxidation, mitochondrial oxidative capacity, and biogenesis in muscle of insulin-resistant mice

Abstract

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