Insulin Receptor Signaling in Osteoblasts Regulates Postnatal Bone Acquisition and Body Composition

Keertik Fulzele; Ryan C. Riddle; Douglas J. DiGirolamo; Xuemei Cao; Chao Wan; Dongquan Chen; Marie Claude Faugere; Susan Aja; Mehboob A. Hussain; Jens C. Brüning; Thomas L. Clemens

doi:10.1016/j.cell.2010.06.002

Insulin Receptor Signaling in Osteoblasts Regulates Postnatal Bone Acquisition and Body Composition

Keertik Fulzele, Ryan C. Riddle, Douglas J. DiGirolamo, Xuemei Cao, Chao Wan, Dongquan Chen, Marie Claude Faugere, Susan Aja, Mehboob A. Hussain, Jens C. Brüning, Thomas L. Clemens

Internal Medicine

Producción científica: Article › revisión exhaustiva

679 Citas (Scopus)

Resumen

Global energy balance in mammals is controlled by the actions of circulating hormones that coordinate fuel production and utilization in metabolically active tissues. Bone-derived osteocalcin, in its undercarboxylated, hormonal form, regulates fat deposition and is a potent insulin secretagogue. Here, we show that insulin receptor (IR) signaling in osteoblasts controls osteoblast development and osteocalcin expression by suppressing the Runx2 inhibitor Twist2. Mice lacking IR in osteoblasts have low circulating undercarboxylated osteocalcin and reduced bone acquisition due to decreased bone formation and deficient numbers of osteoblasts. With age, these mice develop marked peripheral adiposity and hyperglycemia accompanied by severe glucose intolerance and insulin resistance. The metabolic abnormalities in these mice are improved by infusion of undercarboxylated osteocalcin. These results indicate the existence of a bone-pancreas endocrine loop through which insulin signaling in the osteoblast ensures osteoblast differentiation and stimulates osteocalcin production, which in turn regulates insulin sensitivity and pancreatic insulin secretion.

Idioma original	English
Páginas (desde-hasta)	309-319
Número de páginas	11
Publicación	Cell
Volumen	142
N.º	2
DOI	https://doi.org/10.1016/j.cell.2010.06.002
Estado	Published - jul 2010

Financiación

We are grateful for the assistance of the Small Animal Phenotyping Core and Metabolism Core Laboratory at the University of Alabama at Birmingham. We thank Dr. D. Accili for providing the tTR-IRKO mice and Dr. M. Bouxsein for assistance in analyzing the skeletal phenotype by micro-CT. We also thank Drs. T. Nagy and T. Garvey for helpful suggestions during the completion of this work. Support was provided by a Merit Review Grant from the Veterans Administration (T.L.C.) and grants from the NIH (M.H., DK081472), the Baltimore Diabetes Research and Training Center (M.H., DK079637), and DFG (J.C.B., Br1492/7-1). T.L.C. is also the recipient of a Research Career Scientist Award from the Veterans Administration.

Financiadores	Número del financiador
Baltimore Diabetes Research and Training Center	DK079637
National Institutes of Health (NIH)	DK081472
National Institutes of Health (NIH)
National Institute of Arthritis and Musculoskeletal and Skin Diseases	R01AR052746
National Institute of Arthritis and Musculoskeletal and Skin Diseases
U.S. Department of Veterans Affairs
Deutsche Forschungsgemeinschaft	Br1492/7-1
Deutsche Forschungsgemeinschaft

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology

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10.1016/j.cell.2010.06.002

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title = "Insulin Receptor Signaling in Osteoblasts Regulates Postnatal Bone Acquisition and Body Composition",

abstract = "Global energy balance in mammals is controlled by the actions of circulating hormones that coordinate fuel production and utilization in metabolically active tissues. Bone-derived osteocalcin, in its undercarboxylated, hormonal form, regulates fat deposition and is a potent insulin secretagogue. Here, we show that insulin receptor (IR) signaling in osteoblasts controls osteoblast development and osteocalcin expression by suppressing the Runx2 inhibitor Twist2. Mice lacking IR in osteoblasts have low circulating undercarboxylated osteocalcin and reduced bone acquisition due to decreased bone formation and deficient numbers of osteoblasts. With age, these mice develop marked peripheral adiposity and hyperglycemia accompanied by severe glucose intolerance and insulin resistance. The metabolic abnormalities in these mice are improved by infusion of undercarboxylated osteocalcin. These results indicate the existence of a bone-pancreas endocrine loop through which insulin signaling in the osteoblast ensures osteoblast differentiation and stimulates osteocalcin production, which in turn regulates insulin sensitivity and pancreatic insulin secretion.",

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AU - Wan, Chao

AU - Chen, Dongquan

AU - Faugere, Marie Claude

AU - Aja, Susan

AU - Hussain, Mehboob A.

AU - Brüning, Jens C.

AU - Clemens, Thomas L.

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N2 - Global energy balance in mammals is controlled by the actions of circulating hormones that coordinate fuel production and utilization in metabolically active tissues. Bone-derived osteocalcin, in its undercarboxylated, hormonal form, regulates fat deposition and is a potent insulin secretagogue. Here, we show that insulin receptor (IR) signaling in osteoblasts controls osteoblast development and osteocalcin expression by suppressing the Runx2 inhibitor Twist2. Mice lacking IR in osteoblasts have low circulating undercarboxylated osteocalcin and reduced bone acquisition due to decreased bone formation and deficient numbers of osteoblasts. With age, these mice develop marked peripheral adiposity and hyperglycemia accompanied by severe glucose intolerance and insulin resistance. The metabolic abnormalities in these mice are improved by infusion of undercarboxylated osteocalcin. These results indicate the existence of a bone-pancreas endocrine loop through which insulin signaling in the osteoblast ensures osteoblast differentiation and stimulates osteocalcin production, which in turn regulates insulin sensitivity and pancreatic insulin secretion.

AB - Global energy balance in mammals is controlled by the actions of circulating hormones that coordinate fuel production and utilization in metabolically active tissues. Bone-derived osteocalcin, in its undercarboxylated, hormonal form, regulates fat deposition and is a potent insulin secretagogue. Here, we show that insulin receptor (IR) signaling in osteoblasts controls osteoblast development and osteocalcin expression by suppressing the Runx2 inhibitor Twist2. Mice lacking IR in osteoblasts have low circulating undercarboxylated osteocalcin and reduced bone acquisition due to decreased bone formation and deficient numbers of osteoblasts. With age, these mice develop marked peripheral adiposity and hyperglycemia accompanied by severe glucose intolerance and insulin resistance. The metabolic abnormalities in these mice are improved by infusion of undercarboxylated osteocalcin. These results indicate the existence of a bone-pancreas endocrine loop through which insulin signaling in the osteoblast ensures osteoblast differentiation and stimulates osteocalcin production, which in turn regulates insulin sensitivity and pancreatic insulin secretion.

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Insulin Receptor Signaling in Osteoblasts Regulates Postnatal Bone Acquisition and Body Composition

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