Cellular and molecular mechanisms for the bone response to mechanical loading. Academic Article

abstract

• To define the cellular and molecular mechanisms for the osteogenic response of bone to increased loading, several key steps must be defined: sensing of the mechanical signal by cells in bone, transduction of the mechanical signal to a biochemical one, and transmission of that biochemical signal to effector cells. Osteocytes are likely to serve as sensors of loading, probably via interstitial fluid flow produced during loading. Evidence is presented for the role of integrins, the cell's actin cytoskeleton, G proteins, and various intracellular signaling pathways in transducing that mechanical signal to a biochemical one. Nitric oxide, prostaglandins, and insulin-like growth factors all play important roles in these pathways. There is growing evidence for modulation of these mechanotransduction steps by endocrine factors, particularly parathyroid hormone and estrogen. The efficiency of this process is also impaired in the aged animal, yet what remains undefined is at what step mechanotransduction is affected.

authors

• Bloomfield, Susan

published proceedings

• Int J Sport Nutr Exerc Metab

author list (cited authors)

• Bloomfield, S. A.

citation count

• 19

complete list of authors

• Bloomfield, SA

publication date

• December 2001

publisher

• Human Kinetics  Publisher

published in

• International Journal of Sport Nutrition and Exercise Metabolism  Journal

keywords

• Animals
• Bone And Bones
• Bone Density
• Bone Development
• Bone Remodeling
• Exercise
• Humans
• NASA Discipline Musculoskeletal
• Nitric Oxide
• Non-NASA Center
• Osteocytes
• Osteogenesis
• Prostaglandins
• Signal Transduction
• Stress, Mechanical
• Weight-Bearing

PubMed Central ID

• 11915911

Digital Object Identifier (DOI)

• 10.1123/ijsnem.11.s1.s128

start page

• S128

end page

• S136

volume

• 11 Suppl

issue

• s1

URL

• http://dx.doi.org/10.1123/ijsnem.11.s1.s128