成骨细胞与失重
Osteocytes and Weightlessness.
机构信息
U1059 INSERM - SAINBIOSE (SAnté INgéniérie BIOlogie St-Etienne) Campus Santé Innovation, Université Jean Monnet, Saint-Priest-en-Jarez, France.
出版信息
Curr Osteoporos Rep. 2021 Dec;19(6):626-636. doi: 10.1007/s11914-021-00713-8. Epub 2021 Nov 12.
Abstract
PURPOSE OF REVIEW
Osteocytes are considered to be the cells responsible for mastering the remodeling process that follows the exposure to unloading conditions. Given the invasiveness of bone biopsies in humans, both rodents and in vitro culture systems are largely adopted as models for studies in space missions or in simulated microgravity conditions models on Earth.
RECENT FINDINGS
After a brief recall of the main changes in bone mass and osteoclastic and osteoblastic activities in space-related models, this review focuses on the potential role of osteocytes in directing these changes. The role of the best-known signalling molecules is questioned, in particular in relation to osteocyte apoptosis. The mechanotransduction actors identified in spatial conditions and the problems related to fluid flow and shear stress changes, probably enhanced by the alteration in fluid flow and lack of convection during spaceflight, are recalled and discussed.
摘要
目的综述
骨细胞被认为是负责掌握重塑过程的细胞,该过程是对去负荷条件的反应。鉴于骨活检在人体中的侵入性,啮齿动物和体外培养系统在很大程度上被用作太空任务或模拟微重力条件模型的研究模型。
最近的发现
简要回顾了与空间相关模型中骨量和破骨细胞及成骨细胞活性的主要变化后,本综述重点关注了骨细胞在指导这些变化中的潜在作用。质疑了最著名的信号分子的作用,特别是与骨细胞凋亡有关的信号分子。回顾并讨论了在空间条件下确定的机械转导因子以及与流体流动和切应力变化相关的问题,这些问题可能由于在太空中流体流动的改变和缺乏对流而加剧。
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