Flow-induced calcium oscillations in rat osteoblasts are age, loading frequency, and shear stress dependent

Bone adaptation to mechanical loading is dependent on age and the frequency and magnitude of loading. It is believed that load-induced fiuid flow in the porous spaces of bone is an important signal that influences bone cell metabolism and bone adaptation. We used fluid fiow-induced shear stress as a mechanical stimulus to study intracellular calcium (Cai2+) signaling in rat osteoblastic cells (ROB) isolated from young, mature, and old animals. Fluid fiow produced higher magnitude and more abundant [Ca2+]i oscillations than spontaneous oscillations, suggesting that flow-induced Cai2+ signaling encodes a different cellular message than spontaneous oscillations. ROB from old rats showed less basal [Ca2+]i activity and were less responsive to fluid flow. Cells were more responsive to 0.2 Hz than to 1 or 2 Hz and to 2 Pa than to 1 Pa. These data suggest that the frequency and magnitude of mechanical loading may be encoded by the percentage of cells displaying [Ca2+]i oscillations but that the ability to transduce this information may be altered with age