Add to ORKGBone adapts to physical forces and this process is dependent on osteocyte mechanotransduction. One way osteocytes sense mechanical stimulation is through the primary cilium, a sensory organelle that triggers intracellular signaling cascades in response to fluid shear. Our lab previously determined that flow-induced ciliary Ca2+ influx and changes in cytosolic cAMP levels are critical for osteogenesis. We also identified two proteins important for osteocyte mechanotransduction: transient receptor potential vanilloid 4 (TRPV4) and adenylyl cyclase 6 (AC6). Interestingly, disrupting the Ca2+-binding ability of these proteins results in loss of function. Although knockdowns of TRPV4 and AC6 disrupt osteogenesis, there is no definitive evidence ...
Calcium signaling controls multiple cellular functions and is regulated by the release from internal...
Duncan, Randall L.Bone is a highly dynamic tissue constantly adapting itself to several physical and...
Background: Osteocytes, composing over 90% of bone cells, are well known for their mechanosensing ab...
peer-reviewedMechanical loading is a potent stimulus of bone adaptation, requiring the replenishmen...
Skeletal homeostasis requires the continued replenishment of the bone forming osteoblast from a mese...
Osteoporosis is characterised by reduced bone density and weakened bone architecture leading to high...
Physical loading is a potent regulator of bone anabolism, yet the cellular mechanisms by which this ...
Bone turnover in vivo is regulated by mechanical forces such as shear stress originating from inters...
Mechanical loading, such as caused by exercise, stimulates bone formation by osteoblasts and increas...
Osteoporosis is a debilitating disease characterised by weakened bone architecture due to increased ...
Mechanotransduction is a process by which cells sense and convert mechanical loads into biochemical ...
Bone changes composition and structure to adapt to its mechanical environment. Osteocytes are putati...
Osteoporosis and low bone mass are devastating and costly diseases affecting over half the US popula...
Osteocytes, regarded as the mechanical sensor in bone, respond to mechanical stimulation by activati...
The mechanical environment of the skeleton plays an important role in the establishment and maintena...
Calcium signaling controls multiple cellular functions and is regulated by the release from internal...
Duncan, Randall L.Bone is a highly dynamic tissue constantly adapting itself to several physical and...
Background: Osteocytes, composing over 90% of bone cells, are well known for their mechanosensing ab...
peer-reviewedMechanical loading is a potent stimulus of bone adaptation, requiring the replenishmen...
Skeletal homeostasis requires the continued replenishment of the bone forming osteoblast from a mese...
Osteoporosis is characterised by reduced bone density and weakened bone architecture leading to high...
Physical loading is a potent regulator of bone anabolism, yet the cellular mechanisms by which this ...
Bone turnover in vivo is regulated by mechanical forces such as shear stress originating from inters...
Mechanical loading, such as caused by exercise, stimulates bone formation by osteoblasts and increas...
Osteoporosis is a debilitating disease characterised by weakened bone architecture due to increased ...
Mechanotransduction is a process by which cells sense and convert mechanical loads into biochemical ...
Bone changes composition and structure to adapt to its mechanical environment. Osteocytes are putati...
Osteoporosis and low bone mass are devastating and costly diseases affecting over half the US popula...
Osteocytes, regarded as the mechanical sensor in bone, respond to mechanical stimulation by activati...
The mechanical environment of the skeleton plays an important role in the establishment and maintena...
Calcium signaling controls multiple cellular functions and is regulated by the release from internal...
Duncan, Randall L.Bone is a highly dynamic tissue constantly adapting itself to several physical and...
Background: Osteocytes, composing over 90% of bone cells, are well known for their mechanosensing ab...