A healthy heart needs a healthy environment

JAX's Nadia Rosenthal standing outside

British Heart Foundation funds research aimed at supporting the lymphatic system to prevent heart failure.

A heart attack involves not just the heart but also the lymphatic system that surrounds and permeates it. Part of the immune system that defends against bacteria and other intruders, the lymphatic system, is a network of vessels that pass a fluid called lymph throughout the body’s tissues and organs, including the heart.

A research team led by Nadia Rosenthal, Ph.D., F.Med.SciInvestigates the role of genetic variation and the immune system in tissue repair, focusing on cardiovascular and skeletal muscle diseaseNadia Rosenthal, Ph.D., FMedSci , has shown that improving the health of the cardiac immune environment can significantly aid the heart’s repair and regeneration following a heart attack. Rosenthal is professor and scientific director of The Jackson Laboratory (JAX) in Bar Harbor, Maine, as well as chair in cardiovascular science at Imperial College London, U.K.

Now in collaboration with Paul Riley, Ph.D., B.Sc., professor of regenerative medicine at the University of Oxford, Rosenthal is exploring the processes in the cardiac lymphatic system that lead up to heart failure, with the goal of preventing heart attacks before they can occur. The British Heart Foundation has made a grant to the two groups totaling £743,211.65 (about $1 million) over three years for this new work to explore mechanisms of cardiac lymphatic function as a potential therapeutic target for heart patients.

Using the mouse model to fight against heart attacks.

JAX is home to the world’s largest variety of laboratory mouse models, including genetically varied lines that can stand in for the diversity of the human population. The researchers will use these mice, to represent the variety of outcomes in human heart patients, combined with established mouse models of heart failure.

The researchers will explore how lymphatic vessels grow, clear fluid through tissues, and recruit adaptive immune cells to repair the heart. In the process, they will identify subtypes of adaptive immune cells that are associated with heart failure and poor recovery from heart attacks.

“Our teams’ complementary areas of expertise are optimal to achieve our goals,” Rosenthal says, “which stand to make pivotal contributions towards understanding the interplay between lymphatic and immune systems in chronic heart failure.”

A significant strength of this proposal, she says, “is the innovative use of genetically diverse mouse models to mimic variation in patient response and outcome. By aligning human and mouse genetic features of susceptibility to the disease, we can begin to design preventive treatments that provide a healthy immune environment for the heart.”

The immunomodulatory role of the cardiac lymphatics in heart failure, British Heart Foundation grant RG/F/20/110030