骨细胞中的应变放大及基于整合素的信号传导
Strain amplification and integrin based signaling in osteocytes.
作者信息
Wang Y, McNamara L M, Schaffler M B, Weinbaum S
机构信息
Department of Biomedical Engineering, The City College of New York, New York, NY 10031, USA.
出版信息
J Musculoskelet Neuronal Interact. 2008 Oct-Dec;8(4):332-4.
Abstract
Recent morphological studies have suggested that osteocyte processes are directly attached at discrete locations along the canalicular wall by beta3 integrins at the apex of infrequent, previously unrecognized, canalicular projections. This discovery has led to a new paradigm for the initiation of intracellular signaling, which provides a possible long sought after molecular mechanism for the initiation of intracellular signaling in bone cells. The quantitative feasibility of this hypothesis is explored with a detailed theoretical model, which predicts that axial strains due to the sliding of actin microfilaments about the fixed integrin attachments are in order of magnitude larger than the radial strains in the previously proposed strain amplification theory and two orders of magnitude greater than whole tissue strains.
摘要
最近的形态学研究表明,骨细胞突起通过β3整合素在罕见的、先前未被识别的骨小管突起顶端沿骨小管壁的离散位置直接附着。这一发现导致了细胞内信号传导起始的新范式,为骨细胞内信号传导起始提供了一种可能长期以来一直在寻找的分子机制。用一个详细的理论模型探索了这一假设的定量可行性,该模型预测,由于肌动蛋白微丝围绕固定的整合素附着点滑动而产生的轴向应变比先前提出的应变放大理论中的径向应变大一个数量级,比整个组织应变大两个数量级。
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