Dissociation of the neuronal regulation of bone mass and energy metabolism by leptin in vivo

The leptin regulation of bone remodeling, which has been documented through studies of loss-of-function mutations of this hormone or of its receptor in mice and humans, still raised several unanswered questions. For instance, it has been assumed but not formally demonstrated that this regulation occ...

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Veröffentlicht in:	Proceedings of the National Academy of Sciences - PNAS 2008-12, Vol.105 (51), p.20529-20533
Hauptverfasser:	Shi, Yu, Yadav, Vijay K, Suda, Nina, Liu, X. Sherry, Guo, X. Edward, Myers, Martin G. Jr, Karsenty, Gerard
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Biological Sciences Bone and Bones - innervation Bone and Bones - physiology Bone density Bone formation Bone Remodeling Bones Carts Energy Metabolism Gene expression regulation Hormones Leptin - physiology Metabolism Mice Mutation Mutation, Missense Neurons Osteoblasts Phenotypes Physiological regulation Proteins Receptors Receptors, Leptin - deficiency Receptors, Leptin - genetics Receptors, Leptin - physiology Sympathetic Nervous System - physiology
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container_end_page	20533
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container_title	Proceedings of the National Academy of Sciences - PNAS
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creator	Shi, Yu Yadav, Vijay K Suda, Nina Liu, X. Sherry Guo, X. Edward Myers, Martin G. Jr Karsenty, Gerard
description	The leptin regulation of bone remodeling, which has been documented through studies of loss-of-function mutations of this hormone or of its receptor in mice and humans, still raised several unanswered questions. For instance, it has been assumed but not formally demonstrated that this regulation occurs through neuronal means. Likewise, it has not been possible until now to dissociate the influence leptin exerts on appetite and energy expenditure from this function. We show here through mouse genetic studies that a deletion of the leptin receptor in neurons results in an increase in bone formation and bone resorption, resulting in a high bone mass as seen in leptin-deficient mice. In contrast, the same deletion in osteoblasts only does not influence bone remodeling. Furthermore, through the use of l/l mice, a model of gain of function in leptin signaling harboring a Y985L substitution in the leptin receptor, we show that leptin signaling inhibits bone mass accrual by up-regulating sympathetic activity independently of any change in appetite or energy expenditure. This work establishes that in vivo leptin regulates bone mass accrual by acting through neuronal means and provides a direct demonstration that this function of leptin can occur independently of its regulation of energy metabolism.
doi_str_mv	10.1073/pnas.0808701106
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In contrast, the same deletion in osteoblasts only does not influence bone remodeling. Furthermore, through the use of l/l mice, a model of gain of function in leptin signaling harboring a Y985L substitution in the leptin receptor, we show that leptin signaling inhibits bone mass accrual by up-regulating sympathetic activity independently of any change in appetite or energy expenditure. 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We show here through mouse genetic studies that a deletion of the leptin receptor in neurons results in an increase in bone formation and bone resorption, resulting in a high bone mass as seen in leptin-deficient mice. In contrast, the same deletion in osteoblasts only does not influence bone remodeling. Furthermore, through the use of l/l mice, a model of gain of function in leptin signaling harboring a Y985L substitution in the leptin receptor, we show that leptin signaling inhibits bone mass accrual by up-regulating sympathetic activity independently of any change in appetite or energy expenditure. 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subjects	Animals Biological Sciences Bone and Bones - innervation Bone and Bones - physiology Bone density Bone formation Bone Remodeling Bones Carts Energy Metabolism Gene expression regulation Hormones Leptin - physiology Metabolism Mice Mutation Mutation, Missense Neurons Osteoblasts Phenotypes Physiological regulation Proteins Receptors Receptors, Leptin - deficiency Receptors, Leptin - genetics Receptors, Leptin - physiology Sympathetic Nervous System - physiology
title	Dissociation of the neuronal regulation of bone mass and energy metabolism by leptin in vivo
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