posted on 2023-01-11, 14:16authored byGillian P. Johnson, Elena Stavenschi, Kian F. Eichholz, Michele A. Corrigan, Sean FairSean Fair, David A. Hoey
Mechanical loading is a potent stimulus of bone adaptation, requiring
the replenishment of the osteoblast from a progenitor population. One
such progenitor is themesenchymal stemcell (MSC), which undergoes
osteogenic differentiation in response to oscillatory fluid shear. Yet, the
mechanism mediating stem cell mechanotransduction, and thus the
potential to target this therapeutically, is poorly understood. In this study,
we demonstrate that MSCs utilise cAMP as a second messenger in
mechanotransduction, which is required for flow-mediated increases in
osteogenic gene expression. Furthermore, we demonstrate that this
mechanosignalling is dependent on the primary cilium and the ciliary
localised adenylyl cyclase 6. Finally, we also demonstrate that this
mechanotransduction mechanism can be targeted therapeutically to
enhance cAMP signalling and early osteogenic signalling, mimicking
the beneficial effect of physical loading. Our findings therefore
demonstrate a novel mechanism of MSC mechanotransduction
that can be targeted therapeutically, demonstrating a potential
mechanotherapeutic for bone-loss diseases such as osteoporosis.
Funding
Using the Cloud to Streamline the Development of Mobile Phone Apps