Increased bone marrow adiposity in murine femoro-tibial epiphyses exposed to 30 days of microgravity

Jamie Endicott, J. Fitzgerald
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引用次数: 3

Abstract

Bone marrow mesenchymal stem cell (BM-MSC) differentiation in long bones is sensitive to mechanical loading. Increased loading promotes osteogenesis and reduces adipogenesis while reduced loading tips MSC differentiation away from the bone formation in favor of adipogenesis. To examine the effects of the unloading on epiphyseal bone and adipocyte content, subchondral femoro-tibial bones isolated from mice flown for 30 days in microgravity were assessed for evidence of altered bone area and adipocyte number. Consistent with the known response of bone to microgravity, 30 days of spaceflight resulted in approximately 25% less subchondral bone area. Concurrently, 10-fold more adipocytes were present in the bone marrow cavities of femur and tibia in flight compared to ground control samples. These data support the hypothesis that biomechanical unloading promotes adipogenic differentiation and confirms earlier studies in rat vertebrae of increased adipogenesis during 14 days of microgravity. The potential long-term effects of increased bone marrow adipocyte formation on flight personnel health is unknown and warrants further investigation.
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暴露在微重力环境下30天的小鼠股胫骨骺骨髓脂肪增加
骨髓间充质干细胞(BM-MSC)在长骨中的分化对机械负荷敏感。增加负荷可促进成骨和减少脂肪生成,而减少负荷则使MSC分化远离骨形成,有利于脂肪生成。为了检查卸载对骨骺和脂肪细胞含量的影响,对从微重力飞行30天的小鼠中分离的软骨下股骨-胫骨进行了评估,以寻找骨面积和脂肪细胞数量改变的证据。与已知的骨骼对微重力的反应一致,30天的太空飞行使软骨下骨骼面积减少了约25%。同时,与地面对照样品相比,飞行中股骨和胫骨骨髓腔中存在的脂肪细胞增加了10倍。这些数据支持生物力学卸载促进脂肪生成分化的假设,并证实了早期在微重力14天内对大鼠椎骨进行的脂肪生成增加的研究。骨髓脂肪细胞形成增加对飞行人员健康的潜在长期影响尚不清楚,需要进一步研究。
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