Apr. 9, 2013 — Hardening of the arteries, or atherosclerosis, is the primary cause of heart disease. It is caused by calcium accumulation in the blood vessels, which leads to arteries becoming narrow and stiff, obstructing blood flow and leading to heart complications. Although many risk factors for atherosclerosis have been identified, the cause is not known and there is currently no way to reverse it once it sets in. In a new study published 9th April in the open access journal PLOS Biology, researchers have characterized the cells responsible for driving this calcium build-up in vessel walls.
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The process of calcium accumulation in blood vessels resembles bone formation and involves maintaining a balance between bone-forming cells called osteoblasts and bone-destroying cells called osteoclasts. In the new study, Hyo-Soo Kim and colleagues characterize the origin of a population of vascular calcifying progenitor cells, and the potential of these cells to differentiate into different cell types.
"We show that vascular calcifying progenitor cells in the artery have the potential to become either osteoblasts or osteoclasts," said Dr Kim of Seoul National University. "And a certain chemical can push these cells towards becoming osteoclasts, which leads to the softening of the blood vessels."
The researchers sorted cells from the aortas of mice into two groups. Both groups originated from bone marrow and expressed a cell surface protein, called Sca-1, but only one group expressed another cell surface protein called PDGFR
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The process of calcium accumulation in blood vessels resembles bone formation and involves maintaining a balance between bone-forming cells called osteoblasts and bone-destroying cells called osteoclasts. In the new study, Hyo-Soo Kim and colleagues characterize the origin of a population of vascular calcifying progenitor cells, and the potential of these cells to differentiate into different cell types.
"We show that vascular calcifying progenitor cells in the artery have the potential to become either osteoblasts or osteoclasts," said Dr Kim of Seoul National University. "And a certain chemical can push these cells towards becoming osteoclasts, which leads to the softening of the blood vessels."
The researchers sorted cells from the aortas of mice into two groups. Both groups originated from bone marrow and expressed a cell surface protein, called Sca-1, but only one group expressed another cell surface protein called PDGFR