Author
Listed:
- Chao Liang
(Hong Kong Baptist University
Hong Kong Baptist University
Institute of Precision Medicine and Innovative Drug Discovery, HKBU Institute for Research and Continuing Education)
- Songlin Peng
(Hong Kong Baptist University
Ji Nan University Second College of Medicine)
- Jie Li
(Chinese University of Hong Kong
Clinical Medical Laboratory of Peking University Shenzhen Hospital)
- Jun Lu
(Hong Kong Baptist University
Hong Kong Baptist University
Institute of Precision Medicine and Innovative Drug Discovery, HKBU Institute for Research and Continuing Education)
- Daogang Guan
(Hong Kong Baptist University
Hong Kong Baptist University
Institute of Precision Medicine and Innovative Drug Discovery, HKBU Institute for Research and Continuing Education)
- Feng Jiang
(Hong Kong Baptist University
Zhejiang Pharmaceutical College)
- Cheng Lu
(Hong Kong Baptist University
Hong Kong Baptist University
Institute of Precision Medicine and Innovative Drug Discovery, HKBU Institute for Research and Continuing Education
China Academy of Chinese Medical Sciences)
- Fangfei Li
(Hong Kong Baptist University
Hong Kong Baptist University
Institute of Precision Medicine and Innovative Drug Discovery, HKBU Institute for Research and Continuing Education)
- Xiaojuan He
(Hong Kong Baptist University
Hong Kong Baptist University
Institute of Precision Medicine and Innovative Drug Discovery, HKBU Institute for Research and Continuing Education
China Academy of Chinese Medical Sciences)
- Hailong Zhu
(Hong Kong Baptist University)
- D. W. T. Au
(City University of Hong Kong)
- Dazhi Yang
(Ji Nan University Second College of Medicine)
- Bao-Ting Zhang
(Chinese University of Hong Kong)
- Aiping Lu
(Hong Kong Baptist University
Hong Kong Baptist University
Institute of Precision Medicine and Innovative Drug Discovery, HKBU Institute for Research and Continuing Education
Shanghai Academy of Chinese Medical Sciences)
- Ge Zhang
(Hong Kong Baptist University
Hong Kong Baptist University
Institute of Precision Medicine and Innovative Drug Discovery, HKBU Institute for Research and Continuing Education)
Abstract
Bone morphogenetic protein (BMP) signaling is essential for osteogenesis. However, recombinant human BMPs (rhBMPs) exhibit large inter-individual variations in local bone formation during clinical spinal fusion. Smurf1 ubiquitinates BMP downstream molecules for degradation. Here, we classify age-related osteoporosis based on distinct intraosseous BMP-2 levels and Smurf1 activity. One major subgroup with a normal BMP-2 level and elevated Smurf1 activity (BMP-2n/Smurf1e) shows poor response to rhBMP-2 during spinal fusion, when compared to another major subgroup with a decreased BMP-2 level and normal Smurf1 activity (BMP-2d/Smurf1n). We screen a chalcone derivative, i.e., 2-(4-cinnamoylphenoxy)acetic acid, which effectively inhibits Smurf1 activity and increases BMP signaling. For BMP-2n/Smurf1e mice, the chalcone derivative enhances local bone formation during spinal fusion. After conjugating to an osteoblast-targeting and penetrating oligopeptide (DSS)6, the chalcone derivative promotes systemic bone formation in BMP-2n/Smurf1e mice. This study demonstrates a precision medicine-based bone anabolic strategy for age-related osteoporosis.
Suggested Citation
Chao Liang & Songlin Peng & Jie Li & Jun Lu & Daogang Guan & Feng Jiang & Cheng Lu & Fangfei Li & Xiaojuan He & Hailong Zhu & D. W. T. Au & Dazhi Yang & Bao-Ting Zhang & Aiping Lu & Ge Zhang, 2018.
"Inhibition of osteoblastic Smurf1 promotes bone formation in mouse models of distinctive age-related osteoporosis,"
Nature Communications, Nature, vol. 9(1), pages 1-14, December.
Handle:
RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-05974-z
DOI: 10.1038/s41467-018-05974-z
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