Rictor is required for optimal bone accrual in response to anti-sclerostin therapy in the mouse |
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| Institution: | 1. Department of Orthopaedic Surgery, Washington University School of Medicine, St. Louis, MO 63110, USA;2. Department of Medicine, Washington University School of Medicine, St. Louis, MO 63110, USA;3. Department of Developmental Biology, Washington University School of Medicine, St. Louis, MO 63110, USA;4. Department of Anatomy, Histology and Embryology, Nanjing Medical University, Nanjing, China;1. Department of Orthopaedics, New Jersey Medical School, Rutgers University, 205 S. Orange Avenue, Newark, NJ 07103, USA;2. Department of Biomedical Engineering, New Jersey Institute of Technology, 323 Martin Luther King, Jr. Boulevard, Newark, NJ 07102, USA;3. Department of Anatomy and Cell Biology, Indiana University School of Medicine, 635 Barnhill Drive, Indianapolis, IN 46202, USA;1. Department of Medicine, Endocrine Unit, Massachusetts General Hospital, Boston, MA, United States;2. Department of Orthopedic Surgery, Beth Israel Deaconess Medical Center, Boston, MA, United States;1. Department of Biochemistry, Wake Forest School of Medicine, 1 Medical Center Blvd, Winston-Salem, NC 27157, USA;2. Center for Diabetes Research, Wake Forest School of Medicine, 1 Medical Center Blvd, Winston-Salem, NC 27157, USA;3. Center for Genomics and Personalized Medicine Research, Wake Forest School of Medicine, 1 Medical Center Blvd, Winston-Salem, NC 27157, USA;4. Center for Public Health Genomics, Wake Forest School of Medicine, 1 Medical Center Blvd, Winston-Salem, NC 27157, USA;5. Department of Biostatistical Sciences, Wake Forest School of Medicine, 1 Medical Center Blvd, Winston-Salem, NC 27157, USA;6. Department of Pathology, Wake Forest School of Medicine, 1 Medical Center Blvd, Winston-Salem, NC 27157, USA;7. Division of Public Health Sciences, Wake Forest School of Medicine, 1 Medical Center Blvd, Winston-Salem, NC 27157, USA;8. Department of Internal Medicine-Section on Nephrology, Wake Forest School of Medicine, 1 Medical Center Blvd, Winston-Salem, NC 27157, USA;9. Department of Radiology, Vanderbilt University School of Medicine, 2525 West End Ave, Suite 300-B, Nashville, TN 37203, USA;10. Department of Biostatistics, University of Alabama at Birmingham, 1665 University Boulevard, Birmingham, AL 35294, USA;11. Department of Epidemiology, University of Alabama at Birmingham, 1665 University Boulevard, Birmingham, AL 35294, USA;12. Department of Medicine, University of Alabama at Birmingham, 1665 University Boulevard, Birmingham, AL, 35294, USA;1. Research Promotion, Ono Pharmaceutical Co., Ltd., Shimamoto, Osaka 618-8585, Japan;2. Discovery Research Laboratories, Ono Pharmaceutical Co., Ltd., Shimamoto, Osaka 618-8585, Japan;3. Department of Orthopedic Surgery, Kagawa University Faculty of Medicine, Mikicho, Kagawa 761-0793, Japan;1. Weldon School of Biomedical Engineering, Purdue University, West Lafayette, IN, United States;2. Department of Biomedical Engineering, Indiana University-Purdue University at Indianapolis, IN, United States;3. Department of Anatomy and Cell Biology, Indiana University School of Medicine, IN, United States;4. Roudebush Veterans Administration Medical Center, Indianapolis, IN, United States;5. Department of Orthopaedic Surgery, Indiana University School of Medicine, IN, United States |
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| Abstract: | Wnt signaling has emerged as a major target pathway for the development of novel bone anabolic therapies. Neutralizing antibodies against the secreted Wnt antagonist sclerostin (Scl-Ab) increase bone mass in both animal models and humans. Because we have previously shown that Rictor-dependent mTORC2 activity contributes to Wnt signaling, we test here whether Rictor is required for Scl-Ab to promote bone anabolism. Mice with Rictor deleted in the early embryonic limb mesenchyme (Prx1-Cre;Rictorf/f, hereafter RiCKO) were subjected to Scl-Ab treatment for 5 weeks starting at 4 months of age. In vivo micro–computed tomography (μCT) analyses before the treatment showed that the RiCKO mice displayed normal trabecular, but less cortical bone mass than the littermate controls. After 5 weeks of treatment, Scl-Ab dose-dependently increased trabecular and cortical bone mass in both control and RiCKO mice, but the increase was significantly blunted in the latter. Dynamic histomorphometry revealed that the RiCKO mice formed less bone than the control in response to Scl-Ab. In addition, the RiCKO mice possessed fewer osteoclasts than normal under the basal condition and exhibited lesser suppression in osteoclast number by Scl-Ab. Consistent with the fewer osteoclasts in vivo, bone marrow stromal cells (BMSC) from the RiCKO mice expressed less Rankl but normal levels of Opg or M-CSF, and were less effective than the control cells in supporting osteoclastogenesis in vitro. The reliance of Rankl on Rictor appeared to be independent of Wnt-β-catenin or Wnt-mTORC2 signaling as Wnt3a had no effect on Rankl expression by BMSC from either control or RICKO mice. Overall, Rictor in the limb mesenchymal lineage is required for the normal response to the anti-sclerostin therapy in both bone formation and resorption. |
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