Abstract
Mechanical loading opens connexin 43 (Cx43) hemichannels (HCs), leading to the release of bone anabolic molecules, such as prostaglandins, from mechanosensitive osteocytes, which is essential for bone formation and remodeling. However, the mechanotransduction mechanism that activates HCs remains elusive. Here, we report a unique pathway by which mechanical signals are effectively transferred between integrin molecules located in different regions of the cell, resulting in HC activation. Both integrin α5 and αV were activated upon mechanical stimulation via either fluid dropping or flow shear stress (FSS). Inhibition of integrin αV activation or ablation of integrin α5 prevented HC opening on the cell body when dendrites were mechanically stimulated, suggesting mechanical transmission from the dendritic integrin αV to α5 in the cell body during HC activation. In addition, HC function was compromised in vivo, as determined by utilizing an antibody blocking αV activation and α5-deficient osteocyte-specific knockout mice. Furthermore, inhibition of integrin αV activation, but not that of α5, attenuated activation of the phosphoinositide 3-kinase (PI3K)-protein kinase B (AKT) signaling pathway upon mechanical loading, and the inhibition of PI3K/AKT activation blocked integrin α5 activation and HC opening. Moreover, HC opening was blocked only by an anti-integrin αV antibody at low but not high FSS levels, suggesting that dendritic αV is a more sensitive mechanosensor than α5 for activating HCs. Together, these results reveal a new molecular mechanism of mechanotransduction involving the coordinated actions of integrins and PI3K/AKT in osteocytic dendritic processes and cell bodies that leads to HC opening and the release of key bone anabolic factors.
Highlights
Bone continuously undergoes remodeling, which helps to maintain the proper structure and organization of the tissue
We further found that integrin α5β1 interacts directly with connexin 43 (Cx43) and that this interaction is important for the opening of HCs on the cell body in response to mechanical loading.[22]
Unlike integrin α5β1, integrin αV did not Integrin αVβ3 has been implicated as part of a “tethering element” colocalize with Cx43, which predominately localized on the cell connecting the dendrites of osteocytes to the canaliculi wall.[8,25,26,28]
Summary
Mechanotransduction via the coordinated actions of integrins, PI3K signaling and Connexin hemichannels. We report a unique pathway by which mechanical signals are effectively transferred between integrin molecules located in different regions of the cell, resulting in HC activation Both integrin α5 and αV were activated upon mechanical stimulation via either fluid dropping or flow shear stress (FSS). We previously reported that FSS activates the signal to the cell body by activating intracellular PI3K-AKT signaling, and activates α5β1 This mechanotransduction leads to integrin α5β1 on the osteocyte cell body and that this activation and direct interaction between α5β1 and Cx43 opens HCs.[22] MLO-. Activation of integrin α5β1 was assessed based on increased binding to a GST-FNIII9-11 fragment;[22,29] activation of αVβ3 was evaluated by either increased binding to WOW1 Fab[30]
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