Advancing heart stem cell therapy

Dr. Fanny Wulkan, (L), Dr. Michael Laflamme, (R), and Dr. Rocco Romagnuolo, (C)
Dr. Fanny Wulkan, (L), the study’s co-first author, is a postdoctoral researcher in the lab of Dr. Michael Laflamme, (R), a Senior Scientist at UHN’s McEwen Stem Cell Institute. Dr. Rocco Romagnuolo, (C), a previous postdoctoral fellow in the lab of Dr. Laflamme, is co-first author of the study. (Photo: UHN Research Communications)

A recent study led by researchers at UHN’s McEwen Stem Cell Institute found that simply using gene-edited stem cell-derived heart cells to replace damaged heart tissue was insufficient in preventing life-threatening arrhythmias.

This work suggests that more complex approaches are needed to overcome critical irregular heartbeats.

Heart disease is a leading cause of death worldwide, with heart attacks often leaving lasting damage to the heart.

Scientists have been exploring the use of human stem cell-derived heart cells, known as cardiomyocytes, to regenerate damaged heart tissue. However, a significant challenge has emerged as these transplanted cells sometimes trigger irregular heartbeats or arrhythmias.

To address this issue, a research team led by Dr. Michael Laflamme, a Senior Scientist at UHN’s McEwen Stem Cell Institute, a professor in the Department of Laboratory Medicine and Pathobiology at the University of Toronto and senior author of the study, targeted a specific regulator of the heart’s electrical behaviour, the HCN4 ion channel.

This HCN4 protein provides heart muscle cells with pacemaker activity and is known to contribute to abnormal electrical activity in stem cell-derived heart muscle cells.

The team used advanced gene-editing tools to create modified heart cells with a less active HCN4 ion channel, aiming to reduce the risk of arrhythmias. However, upon transplantation into damaged heart cells, the researchers found that both the modified and unmodified cells still caused frequent arrhythmias.

Heart monitor with a see through image of a heart on a blue background.
Researchers are looking into stem cells as a strategy to help regenerate damaged heart tissue. However, when transplanted into the heart, the stem cells can sometimes create their own electrical signals, which can disrupt the heart’s natural rhythm, leading to irregular heartbeats or life-threatening arrhythmias. (Photo: Getty Images)

“These results were surprising,” said Dr. Rocco Romagnuolo, a co-first author of the study who previously worked as a postdoctoral fellow in the lab of Dr. Laflamme, who also holds a Canada Research Chair in Cardiovascular Regenerative Medicine.

“Despite evidence suggesting that the modification helped reduce the activity of this ion channel in the transplanted heart muscle cells, this strategy alone was not enough to prevent arrhythmias,” Dr. Romagnuolo said.

Dr. Fanny Wulkan, a postdoctoral fellow in Dr. Laflamme’s lab and co-first author of the study adds, “this study highlights the critical reality of cardiac regeneration research: while it looks promising in the lab, translating these results to real-world therapies presents significant challenges.

“We need to better understand how these transplanted cells interact with the heart and target the factors that may contribute to the arrhythmia risk.”

As researchers continue to push the boundaries of regenerative medicine, studies like this are crucial to ensuring that new treatments are not only effective but also safe for patients.

Future work will focus on identifying additional strategies to enhance the safety of these therapies.

This work was supported by UHN Foundation, the Canada Research Chairs Program, the University of Toronto’s Medicine by Design, and BlueRock Therapeutics (BRT).

By UHN Research Communications

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