What makes blood vessels grow?
20.06.2022 / Blood vessels must adapt their growth to the nutrients available in their surroundings so that they can keep organs adequately supplied. A team led by Michael Potente has identified two proteins that are important for this process and published their findings in Nature Metabolism.
Blood vessels run throughout the human body and ensure that our organs get all the nutrients and oxygen they need. If these finely woven networks stop working as they should, we risk developing diseases. While age-related cardiovascular conditions frequently cause vessels to atrophy, malignant tumors are characterized by excessive growth of misrouted vessels. Wet macular degeneration is also associated with the sprouting of new blood vessels in the wrong place. At its worst, the condition can cause blindness.
A door-opener for nutrients
“To help us develop targeted therapies for these kinds of disease, we want to find out how exactly the growth of new blood vessels – a process called angiogenesis – is regulated within the body,” says Potente, who is Professor for Translational Vascular Biomedicine at the Berlin Institute of Health at Charité (BIH) and a guest researcher at the Max Delbrück Center for Molecular Medicine in the Helmholtz Association (MDC). His Angiogenesis & Metabolism Laboratory is part of the Berlin Center for Translational Vascular Biomedicine, an interdisciplinary facility that is a joint focus area of the BIH, Charité – Universitätsmedizin Berlin, and the MDC.
Potente and his international team have now made some important progress: Writing in Nature Metabolism, the researchers report that two proteins named YAP and TAZ play a crucial role in allowing vessels to sprout, even under challenging metabolic conditions. The proteins are part of the Hippo signaling pathway, which regulates organ growth and size in almost all living things. “If these two molecules are active in the cells of the vessels’ inner wall – the endothelium – they read genes that lead to increased growth of certain surface transporters,” says Potente. “These allow the vessel cells to absorb more nutrients that are important for growth and cell division.” YAP and TAZ, which both function in a similar way, therefore act as a kind of door-opener.
“This increased absorption of nutrients leads to the activation of another protein, called mTOR,” says Potente. mTOR is an important control point in the cells that triggers growth and cell division. “This allows new blood vessel networks to expand,” he explains. However, the team does not yet know which signals regulate the activity of YAP and TAZ in endothelial cells.
Insights from mouse retinas
The study’s lead author is Dr. Yu Ting Ong from the Max Planck Institute for Heart and Lung Research in Bad Nauheim in western Germany. Before moving to Berlin, Potente led a lab there. Also involved in the report was Professor Holger Gerhardt, head of the Integrative Vascular Biology Laboratory at the MDC, who works next door to Potente in the Käthe Beutler Building in Berlin-Buch. “Together, we’ve discovered a mechanism that enables blood vessels to align their growth closely to the situation in their surroundings,” says Gerhardt. “The mechanism stops endothelial cells from dividing if the metabolic resources needed for the process aren’t there.”Source: Joint press release by the Max Delbrück Center for Molecular Medicine and the Berlin Institute of Health at Charité
What makes blood vessels grow?