New ‘atlas’ of the heart offers new approach to treating heart disease

Cutting-edge techniques the first step toward understanding heart disease and developing new targeted treatments to stop it

Scientists have for the first time documented all of the different cell types and genes expressed in the healthy human heart, in research published recently in the journal Nature.

Cardiologists from the Mazankowski Alberta Heart Institute at the University of Alberta joined teams from Cambridge, Boston and Berlin to use state-of-the-art analytical techniques to sequence the ribonucleic acids (RNA) in nine types of single cells from six regions of the heart.

New ‘atlas’ first step toward precision treatments for heart disease
U of A cardiology professor Gavin Oudit (centre) and PhD candidates Hao Zhang (left) and Anissa Viveiros were part of an international research team that mapped out an “atlas” of all the cell types and genes expressed in the healthy human heart. (Photo: Ryan O’Byrne)

“Now we have a single-cell atlas of the normal human heart, including cellular composition and gene expression,” said Gavin Oudit, professor in the Faculty of Medicine & Dentistry, Canada Research Chair in Heart Failure, and director of the Mazankowski’s Heart Function Clinic and its Human Explanted Heart Program.

Oudit said this is the first step toward understanding heart disease and developing new targeted treatments to stop it.

“What we are working on now is to see how the cell types and gene expression are changed in patients with genetic cardiomyopathies – a significant cause of end-stage heart failure and sudden cardiac death,” he said.

Next, researchers will be able to select specific mutations as treatment targets. “We want to correct those mutations, either with drugs or gene therapy, and start to reverse cardiomyopathies, ideally at an early stage,” Oudit said.

The Edmonton team helped the international consortium to isolate single cells and code the gene expressions from seven male and seven female healthy donor hearts.

“This technique is truly remarkable,” Oudit said. “Rather than grinding up a piece of heart tissue and losing the cellular composition, this allows us to track the gene expression of every single cell.”

Oudit said the research could not have happened without the integrated team of transplant co-ordinators, cardiologists and cardiac surgeons working together in Canada’s largest research-integrated human heart transplant program at the Mazankowski Alberta Heart Institute.

“The dedication and efforts of our trainees over the past decade have been invaluable, including our current PhD trainees, Hao Zhang and Anissa Viveiros,” Oudit said.

“We have a wonderful clinical program, which is also a fabulous research tool, and it will ultimately influence patient care and our approaches to treating heart disease.”

| By Gillian Rutherford

This article was submitted by the University of Alberta’s online publication Folio, a Troy Media content provider partner.

© Troy Media


The views, opinions and positions expressed by columnists and contributors are the author’s alone. They do not inherently or expressly reflect the views, opinions and/or positions of our publication.

You must be logged in to post a comment Login