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Exercise maintains bone homeostasis by promoting osteogenesis through STAT3

成骨细胞 骨重建 化学 车站3 内分泌学 内科学 细胞生物学 机械转化 STAT蛋白 骨质疏松症 平衡 骨髓 医学 信号转导 生物 体外 生物化学
作者
Xiangru Huang,Yanfei Zhu,Siyuan Sun,Xin Gao,Yiling Yang,Hongyuan Xu,Anting Jin,Yuanqi Liu,Hanbing Jia,Qinggang Dai,Lingyong Jiang
出处
期刊:International Journal of Biological Sciences [Ivyspring International Publisher]
卷期号:19 (7): 2021-2033 被引量:15
标识
DOI:10.7150/ijbs.82744
摘要

Bone exhibits changes in density, strength, and microarchitecture in relation to mechanical loading mediated by exercise. Appropriate exercise maintains bone homeostasis, while the absence of exercise leads to disuse bone loss. However, the acting mechanism of mechanotransduction in bone remains unclear. We performed the running-wheel exercise and tail suspension model to study the effects of exercise on bone metabolism, and found that osteoblastic Signal transducer and activator of transcription 3 (STAT3) activity was closely related to exercise-induced bone mass and metabolism changes. With the Flexcell tension-loading system in vitro, mechanical force promoted STAT3 activity, which was accompanied by increased osteoblastic differentiation of the bone marrow mesenchymal stem cells (BMSCs). In contrast, the inhibition of STAT3 phosphorylation blocked force-induced osteoblastic differentiation. Furthermore, pharmacological inactivation of STAT3 impaired the increase in exercise-induced bone mass and osteogenesis. With an inducible conditional deletion mouse model, we found that the osteoblast lineage-specific Stat3 deletion could also block force-induced osteoblastic differentiation in vitro and impair exercise-promoted bone mass and osteogenesis in vivo. This confirmed the crucial role of osteoblastic STAT3 in exercise-mediated bone metabolism. Finally, colivelin, a STAT3 agonist, promoted osteoblastic differentiation in vitro and partly rescued exercise loss-induced disuse bone loss by improving osteogenesis in the tail suspension model. Taken together, our study revealed the essential role of STAT3 in maintaining exercise-mediated bone homeostasis. In addition, STAT3 might act as a potential target for osteoporosis caused by exercise loss.
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