WNT-LRP5 signaling induces warburg effect through mTORC2 activation during osteoblast differentiation

Emel Esen; Jianquan Chen; Courtney M. Karner; Adewole L. Okunade; Bruce W. Patterson; Fanxin Long

doi:10.1016/j.cmet.2013.03.017

WNT-LRP5 signaling induces warburg effect through mTORC2 activation during osteoblast differentiation

Emel Esen, Jianquan Chen, Courtney M. Karner, Adewole L. Okunade, Bruce W. Patterson, Fanxin Long

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

273 Scopus citations

Abstract

WNT signaling controls many biological processes including cell differentiation in metazoans. However, how WNT reprograms cell identity is not well understood. We have investigated the potential role of cellular metabolism in WNT-induced osteoblast differentiation. WNT3A induces aerobic glycolysis known as Warburg effect by increasing the level of key glycolytic enzymes. The metabolic regulation requires LRP5 but not β-catenin and is mediated by mTORC2-AKT signaling downstream of RAC1. Suppressing WNT3A-induced metabolic enzymes impairs osteoblast differentiation in vitro. Deletion of Lrp5 in the mouse, which decreases postnatal bone mass, reduces mTORC2 activity and glycolytic enzymes in bone cells and lowers serum lactate levels. Conversely, mice expressing a mutant Lrp5 that causes high bone mass exhibit increased glycolysis in bone. Thus, WNT-LRP5 signaling promotes bone formation in part through direct reprogramming of glucose metabolism. Moreover, regulation of cellular metabolism may represent a general mechanism contributing to the wide-ranging functions of WNT proteins.

Original language	English (US)
Pages (from-to)	745-755
Number of pages	11
Journal	Cell Metabolism
Volume	17
Issue number	5
DOIs	https://doi.org/10.1016/j.cmet.2013.03.017
State	Published - May 7 2013
Externally published	Yes

ASJC Scopus subject areas

Physiology
Molecular Biology
Cell Biology

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@article{7679182454de491f914f938d8bdad020,

title = "WNT-LRP5 signaling induces warburg effect through mTORC2 activation during osteoblast differentiation",

abstract = "WNT signaling controls many biological processes including cell differentiation in metazoans. However, how WNT reprograms cell identity is not well understood. We have investigated the potential role of cellular metabolism in WNT-induced osteoblast differentiation. WNT3A induces aerobic glycolysis known as Warburg effect by increasing the level of key glycolytic enzymes. The metabolic regulation requires LRP5 but not β-catenin and is mediated by mTORC2-AKT signaling downstream of RAC1. Suppressing WNT3A-induced metabolic enzymes impairs osteoblast differentiation in vitro. Deletion of Lrp5 in the mouse, which decreases postnatal bone mass, reduces mTORC2 activity and glycolytic enzymes in bone cells and lowers serum lactate levels. Conversely, mice expressing a mutant Lrp5 that causes high bone mass exhibit increased glycolysis in bone. Thus, WNT-LRP5 signaling promotes bone formation in part through direct reprogramming of glucose metabolism. Moreover, regulation of cellular metabolism may represent a general mechanism contributing to the wide-ranging functions of WNT proteins.",

author = "Emel Esen and Jianquan Chen and Karner, {Courtney M.} and Okunade, {Adewole L.} and Patterson, {Bruce W.} and Fanxin Long",

note = "Funding Information: This work is supported by NIH grants AR060456 and AR055923 (F.L.), NIH P30 DK056341 (Washington University Nutrition Obesity Research Center), and NIH P30 AR057235 (Washington University Musculoskeletal Research Center). We thank Dr. Michael Mueckler (Washington University School of Medicine) for providing the GLUT1 antibody, Dr. Lynda Bonewald (University of Missouri-Kansas City) for MLO-Y4 cells, Dr. Roberto Civitelli (Washington University School of Medicine) for MC3T3 cells, and Dr. Clay Semenkovich (Washington University School of Medicine) for 3T3-L1 cells. We thank Maggie Chi and Dr. Kelle Moley (Washington University School of Medicine) for help with ATP measurements. We thank Dr. Matthew Warman (Harvard Medical School) for the LRP5 HBM mice and Dr. Bart Williams (Van Andel Research Institute) for the LRP5 null and floxed mice. ",

year = "2013",

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T1 - WNT-LRP5 signaling induces warburg effect through mTORC2 activation during osteoblast differentiation

AU - Esen, Emel

AU - Chen, Jianquan

AU - Karner, Courtney M.

AU - Okunade, Adewole L.

AU - Patterson, Bruce W.

AU - Long, Fanxin

N1 - Funding Information: This work is supported by NIH grants AR060456 and AR055923 (F.L.), NIH P30 DK056341 (Washington University Nutrition Obesity Research Center), and NIH P30 AR057235 (Washington University Musculoskeletal Research Center). We thank Dr. Michael Mueckler (Washington University School of Medicine) for providing the GLUT1 antibody, Dr. Lynda Bonewald (University of Missouri-Kansas City) for MLO-Y4 cells, Dr. Roberto Civitelli (Washington University School of Medicine) for MC3T3 cells, and Dr. Clay Semenkovich (Washington University School of Medicine) for 3T3-L1 cells. We thank Maggie Chi and Dr. Kelle Moley (Washington University School of Medicine) for help with ATP measurements. We thank Dr. Matthew Warman (Harvard Medical School) for the LRP5 HBM mice and Dr. Bart Williams (Van Andel Research Institute) for the LRP5 null and floxed mice.

PY - 2013/5/7

Y1 - 2013/5/7

N2 - WNT signaling controls many biological processes including cell differentiation in metazoans. However, how WNT reprograms cell identity is not well understood. We have investigated the potential role of cellular metabolism in WNT-induced osteoblast differentiation. WNT3A induces aerobic glycolysis known as Warburg effect by increasing the level of key glycolytic enzymes. The metabolic regulation requires LRP5 but not β-catenin and is mediated by mTORC2-AKT signaling downstream of RAC1. Suppressing WNT3A-induced metabolic enzymes impairs osteoblast differentiation in vitro. Deletion of Lrp5 in the mouse, which decreases postnatal bone mass, reduces mTORC2 activity and glycolytic enzymes in bone cells and lowers serum lactate levels. Conversely, mice expressing a mutant Lrp5 that causes high bone mass exhibit increased glycolysis in bone. Thus, WNT-LRP5 signaling promotes bone formation in part through direct reprogramming of glucose metabolism. Moreover, regulation of cellular metabolism may represent a general mechanism contributing to the wide-ranging functions of WNT proteins.

AB - WNT signaling controls many biological processes including cell differentiation in metazoans. However, how WNT reprograms cell identity is not well understood. We have investigated the potential role of cellular metabolism in WNT-induced osteoblast differentiation. WNT3A induces aerobic glycolysis known as Warburg effect by increasing the level of key glycolytic enzymes. The metabolic regulation requires LRP5 but not β-catenin and is mediated by mTORC2-AKT signaling downstream of RAC1. Suppressing WNT3A-induced metabolic enzymes impairs osteoblast differentiation in vitro. Deletion of Lrp5 in the mouse, which decreases postnatal bone mass, reduces mTORC2 activity and glycolytic enzymes in bone cells and lowers serum lactate levels. Conversely, mice expressing a mutant Lrp5 that causes high bone mass exhibit increased glycolysis in bone. Thus, WNT-LRP5 signaling promotes bone formation in part through direct reprogramming of glucose metabolism. Moreover, regulation of cellular metabolism may represent a general mechanism contributing to the wide-ranging functions of WNT proteins.

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WNT-LRP5 signaling induces warburg effect through mTORC2 activation during osteoblast differentiation

Abstract

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