Kindlin-2 mediates mechanotransduction in bone by regulating expression of Sclerostin in osteocytes

Osteocytes act as mechanosensors in bone; however, the underlying mechanism remains poorly understood. Here we report that deleting Kindlin-2 in osteocytes causes severe osteopenia and mechanical property defects in weight-bearing long bones, but not in non-weight-bearing calvariae. Kindlin-2 loss in osteocytes impairs skeletal responses to mechanical stimulation in long bones. Control and cKO mice display similar bone loss induced by unloading. However, unlike control mice, cKO mice fail to restore lost bone after reloading. Osteocyte Kindlin-2 deletion impairs focal adhesion (FA) formation, cytoskeleton organization and cell orientation in vitro and in bone. Fluid shear stress dose-dependently increases Kindlin-2 expression and decreases that of Sclerostin by downregulating Smad2/3 in osteocytes; this latter response is abolished by Kindlin-2 ablation. Kindlin-2-deficient osteocytes express abundant Sclerostin, contributing to bone loss in cKO mice. Collectively, we demonstrate an indispensable novel role of Kindlin-2 in maintaining skeletal responses to mechanical stimulation by inhibiting Sclerostin expression during osteocyte mechanotransduction. Qin et al. show the involvement of Kindlin-2 in osteocyte mechanotransduction. They show Kindlin-2 mediates skeletal responses to mechanical stimulation through Smad 2/3 mediated inhibition of Sclerostin.

Automated summary

The study reveals that the absence of Kindlin-2 in osteocytes leads to osteopenia and mechanical property defects, affecting skeletal responses to mechanical stimulation in long bones. Experimental results demonstrate that Kindlin-2 maintains skeletal responses to mechanical stimulation by regulating Sclerostin expression.