Add to ORKGMechanical loading plays a key role in the physiology of bone, allowing bone to func-tionally adapt to its environment, however characterization of the signaling events linking load to bone formation is incomplete. A screen for genes associated with mechanical load-induced bone formation identified the glutamate transporter GLAST, implicating the excitatory amino acid, glutamate, in themechanoresponse.When an osteogenic load (10N, 10Hz)was externally applied to the rat ulna, GLAST (EAAT1)mRNA,was significantly down-regulated in osteocytes in the loaded limb. Functional components from each stage of the glutamate signaling pathway have since been identified within bone, including proteins necessary for calcium-mediated glutamate exocytosis, ...
Background: Osteocytes, composing over 90% of bone cells, are well known for their mechanosensing ab...
The last decade has seen an exponential increase in our understanding of osteocytes function and bio...
Summary. Bone metabolism is regulated by interaction between two skeletal cells-osteoclasts and oste...
Bone relies on multiple extracellular signaling systems to maintain homeostasis of its normal struct...
Mechanical loading plays a key role in the physiology of bone, allowing bone to functionally adapt t...
Mechanical loading of the skeleton is important for maintenance of adequate bone mass and defined me...
The amino acid L-glutamate mediates signals at excitatory synapses in the CNS where its effects are ...
The cellular mechanisms coupling mechanical loading with bone remodeling remain unclear. In the CNS,...
Without habitual exercise, bone is lost from the skeleton. Interactions between the effects of loadi...
Mechanical loading plays a key role in the physiology of bone, allowing bone to functionally adapt t...
Recent increasing evidence supports a role for neuronal type signaling in bone. Specifically glutama...
Purpose of review: Significant progress has been made in the field of mechanotransduction in bone ce...
Bone relies on multiple extracellular signalling systems to maintain homeostasis of its normal struc...
This paper discusses a study examining a new model of cholesteatoma induced bone resorption in mice ...
BMP2 and mechanical loading cooperatively regulate immediate early signalling events in the BMP path...
Background: Osteocytes, composing over 90% of bone cells, are well known for their mechanosensing ab...
The last decade has seen an exponential increase in our understanding of osteocytes function and bio...
Summary. Bone metabolism is regulated by interaction between two skeletal cells-osteoclasts and oste...
Bone relies on multiple extracellular signaling systems to maintain homeostasis of its normal struct...
Mechanical loading plays a key role in the physiology of bone, allowing bone to functionally adapt t...
Mechanical loading of the skeleton is important for maintenance of adequate bone mass and defined me...
The amino acid L-glutamate mediates signals at excitatory synapses in the CNS where its effects are ...
The cellular mechanisms coupling mechanical loading with bone remodeling remain unclear. In the CNS,...
Without habitual exercise, bone is lost from the skeleton. Interactions between the effects of loadi...
Mechanical loading plays a key role in the physiology of bone, allowing bone to functionally adapt t...
Recent increasing evidence supports a role for neuronal type signaling in bone. Specifically glutama...
Purpose of review: Significant progress has been made in the field of mechanotransduction in bone ce...
Bone relies on multiple extracellular signalling systems to maintain homeostasis of its normal struc...
This paper discusses a study examining a new model of cholesteatoma induced bone resorption in mice ...
BMP2 and mechanical loading cooperatively regulate immediate early signalling events in the BMP path...
Background: Osteocytes, composing over 90% of bone cells, are well known for their mechanosensing ab...
The last decade has seen an exponential increase in our understanding of osteocytes function and bio...
Summary. Bone metabolism is regulated by interaction between two skeletal cells-osteoclasts and oste...