Understanding how cells become coronary vessels may lead to advances in repairing heart damage

May 26, 2015, Children's Hospital Los Angeles
Coronary vasculature in zebrafish. Credit: The Saban Research Institute of Children's Hospital Los Angeles

The heart has its own dedicated blood supply, with coronary arteries that supply oxygen-rich blood to the heart and cardiac veins that remove deoxygenated blood. This system of vessels nourishes the heart, enabling it to pump blood to all the other organs and tissues of the body. Yet despite their critical importance, the process and molecules required for coronary vessel development have not been fully determined.

Studying zebrafish, investigators at The Saban Research Institute and the Heart Institute of Children's Hospital Los Angeles discovered a new source for cells that can develop into coronary vessels and have identified the signaling protein, a chemokine called CXCL12, which guides this process. Results of the study will be published online May 26 by the journal Developmental Cell.

Zebrafish have emerged as an important vertebrate model for cardiovascular research for a number of reasons, including the ability to regenerate its if damaged, and because the transparency of the embryos allows easy observation of internal processes like . Using confocal and time-lapse imaging, the investigators were able to visualize coronary vessels developing from the endocardium, or the inner lining of the heart - specifically from the atrioventricular canal, the structure that divides the heart into compartments.

"This furthers our efforts into heart regeneration to repair human hearts," said Ching-Ling (Ellen) Lien, PhD, principal investigator at The Saban Research Institute of CHLA and senior author on the paper. "We have now found a novel source of cells that can differentiate into coronary vessels and have identified the factors required."

Lien and her team observed that zebrafish with a mutation at the CXCR4 receptor survive, but are not able to form coronary vessels or undergo heart regeneration following injury. Since fish without this mutation are able to do both, the investigators concluded that an interaction between CXCR4 receptors on endothelial cells and the CXCL12b protein expressed by the myocardium regulate the process. In addition to providing basic information about the developing heart, this finding may also have clinical relevance.

"Children or young adults may not be aware of having abnormal coronary vessels because their circulation is adequate until the heart is stressed by increased demands, for instance when participating in strenuous sports," explains Lien, who is also an assistant professor at the Keck School of Medicine and an investigator at the Cardiovascular Thoracic Institute, both at the University of Southern California. "Then suddenly, an apparently healthy, young person dies. Alternatively, a person with abnormal might have higher risk of experiencing heart attacks later on in life. Our findings will guide future study toward understanding these devastating conditions in order to be better able to diagnose them and develop interventional strategies."

Explore further: Mammalian heart regenerative capacity depends on severity of injury

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