Featured Article Academic Journal Main Category: Bones / Orthopedics Also Included In: Stem Cell Research Article Date: 24 Aug 2012 - 0:00 PDT

Current ratings for: Osteoporosis Clue Found In Stem Cell Signalling Protein

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These are the implications of a new study led by Harvard Medical School (HMS) that was published online in The Journal of Clinical Investigation on 13 August.

Senior author Bjorn Olsen, Hersey Professor of Cell Biology at HMS, told the press about what they found:

"It shifts the thinking about what controls the differentiation of stem cells to bone cells instead of fat cells, and how to make sure this mechanism stays active with aging."

Bone is not a dead material: it is living tissue that is changing all the time, as it is continuously formed and reabsorbed.

Osteoporosis is a common bone disease where bone tissue becomes progressively thinner, resulting in higher risk of fracture. It affects about 1 in 5 American women and is thought to be caused by stem cells that normally differentiate into bone-forming cells becoming fat cells instead over time.

For the study, Olsen, who is professor of developmental biology and dean for research at Harvard School of Dental Medicine, and colleagues, decided to investigate the role of vascular endothelial growth factor, or VEGF, a common signalling protein that plays a key role in the development of blood vessels that are important in early bone growth and skeletal maintenance in mammals. The protein works by activating receptors on the surface of cells.

Soon after they were born, the mice's skeletons began to show osteoporosis-like qualities, such as reduced bone tissue and a build up of fat in the bone marrow.

Read more from the original source:
Osteoporosis Clue Found In Stem Cell Signalling Protein

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