The Sustainment and Consequences of Cytosolic Calcium Signals in Osteocytes

Genevieve Nicole Brown

Osteocytes are widely regarded as mechanosensors, capable of detecting changes in the mechanical environment of the bone tissue and modifying cellular responses accordingly. Indeed, an intact osteocyte network is required for bone changes in response to unloading, and studies have shown that loading/unloading influences osteocyte expression of proteins that modulate bone turnover, such as sclerostin and receptor activator of nuclear factor kappa B ligand (RANKL). However, mechanisms underlying osteocyte mechanotransduction remain unclear. For instance, one of the earliest responses of bone cells to mechanical stimuli is a rise in intracellular, or cytosolic, calcium (Ca2+cyt), but the mechanisms by which osteocytes generate or utilize Ca2+ signals to direct bone adaptation are largely unknown. In this thesis, I explored the mechanisms underlying the sustainment of Ca2+cyt oscillations...