Abstract
Osteocytes (OCY) are the end stage differentiation cells of the osteoblast lineage, and are incorporated in the bone matrix during bone formation. In doing so, OCY control the mineralisation of osteoid. OCY form a dense inter-connected network of cell bodies and cell processes throughout the mineralised matrix of bone.
OCY viability depends on interstitial fluid flow along the OCY canaliculi, driven by pulsatile blood flow and loading of the skeleton. Maintenance of the density and viability of OCY are essential for bone health because OCY perform many important functions in bone. Firstly, OCY appear to initiate bone repair of bone microdamage. Secondly, OCY are almost certainly the cells, which initiate new bone formation in response to increased loading of bone. Thirdly, OCY are able to regulate the amount of new bone formation in bone remodelling cycles, at least in part by the production of a molecule called sclerostin (SCL).
Mutations in the SCL gene, or deletion of the SCL gene in transgenic mice, are associated with particularly dense, fracture resistant bones. This information has led to development of anti-SCL antibodies as a potential anabolic therapy for bones. Bone loss in ovariectomised aged rats was shown recently to be reversed by treatment with neutralising SCL antibodies. There is also some data to suggest that these antibodies may promote fracture healing. Reduced OCY viability and/or density have been reported in association with osteoporotic fracture. OCY viability seems to be dependent on skeletal loading, adequate skeletal blood flow and estrogen in females. OCY viability is adversely affected by hypoxia, unloading of the skeleton and pharmacobiology, such as chronic exposure to glucocorticoids. Both micro and macro-fractures result in disruption of the OCY network, as do procedures such as drilling and cutting of bone.
Because of the important roles of OCY in bone, new approaches to bone health may require the identification of agents to protect these cells from harmful influences in disease and ageing.