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Researchers Discover Key to Regenerating Blood Vessels

Researchers Discover Key to Regenerating Blood Vessels
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Sanford-Burnham Prebys Medical Discovery Institute


Sanford-Burnham Prebys Medical Discovery Institute (click to view)

Sanford-Burnham Prebys Medical Discovery Institute

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A new study led by researchers at Sanford Burnham Prebys Medical Discovery Institute (SBP) identifies a signaling pathway that is essential for angiogenesis, the growth of new blood vessels from pre-existing vessels. The findings, published in Nature Communications, may improve current strategies to improve blood flow in ischemic tissue, such as that found in atherosclerosis and peripheral vascular disease associated with diabetes.

“Our research shows that the formation of fully functional blood vessels requires activation of protein kinase Akt by a protein called R-Ras, and this mechanism is necessary for the formation of the hallow structure, or lumen, of a blood vessel.” says Masanobu Komatsu, Ph.D., associate professor at SBP’s Lake Nona campus. “The findings are important because they shed new light on the biological process needed to increase blood flow in ischemic tissues.”

Previous efforts to treat ischemia by creating new blood vessels have focused on delivering angiogenic growth factors like vascular endothelial growth factor (VEGF) to ischemic sites. But all of these studies, including more than 25 phase II and III clinical trials, have failed to offer significant benefit to patients.


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Komatsu’s research team used a combination of 3D cell culture and living tissue to show that VEGF promotes vascularization, but the vessel structures formed are chaotic, unstable and non-functional. “Functional vessels need to have a lumen; a pipe-like opening that allows oxygenated blood and nutrients to travel through the body,” explains Komatsu, “and VEGF alone cannot fully support the formation of such a vessel structure.”

“Generating new blood vessels is similar to the way trees grow; sprouts develop from existing vessels and then branch out further and further to restore vascularity, says Fangfei Li, Ph.D., postdoctoral associate in Komatsu’s lab and lead author of the paper. “This study shows that there are distinct steps and signals that control the process.

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