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- Title
Oxygen Sensing and Osteogenesis.
- Authors
WANG, YING; WAN, CHAO; GILBERT, SHAWN R.; CLEMENS, THOMAS L.
- Abstract
Osteogenesis and angiogenesis are tightly coupled during bone formation and repair. Blood vessels not only carry oxygen and nutrients to the developing bone, but also play an active role in bone formation and remodeling by mediating the interaction between osteoblasts, osteocytes, osteoclasts, and vascular cells at a variety of levels. Tissue hypoxia is believed to be a major stimulus for angiogenesis by activating hypoxia-inducible factor α (HIFα) pathway, which is a central regulator of hypoxia adaptation in vertebrates. HIFα remains inactive under normoxic conditions through pVHL-mediated polyubiquitination and proteasomal degradation. Activation of the HIFα pathway by hypoxia triggers hypoxia-responsive gene expression, such as vascular endothelial growth factor ( Vegf ), which plays a critical role in angiogenesis, endochondral bone formation, and bone repair following fracture. Recent work from our laboratory has shown that osteoblasts use the HIFα pathway to sense reduced oxygen tension and transmit signals that impinge on angiogenic and osteogenic gene programs during bone formation. Using a genetic approach, we have demonstrated that overexpression of HIFα in mouse osteoblasts through disruption of Vhl results in profound increases in angiogenesis and osteogenesis, which appear to be mediated by cell nonautonomous mechanisms involving VEGF. These studies suggest that VEGF exerts many of its actions on bone indirectly by stimulation of angiogenesis. Whether or to what extent this angiogenic factor functions independent of endothelial cells remains to be determined.
- Subjects
BONE growth; NEOVASCULARIZATION; BONE density; HUMAN growth hormone; BONE metabolism; BONE remodeling; BONE regeneration; BONE resorption; MUSCULOSKELETAL system; MEDICAL research
- Publication
Annals of the New York Academy of Sciences, 2007, Vol 1117, p1
- ISSN
0077-8923
- Publication type
Article
- DOI
10.1196/annals.1402.049