Metabolic process providing energy to heart muscle fails to mature in babies with hypertrophy

A metabolic process that provides heart muscle with energy fails to mature in newborns with thickened heart walls, according to a Japan­-Canada research team.

Hokkaido University cardiologist Arata Fukushima, along with a team of University of Alberta scientists led by Gary Lopaschuk, examined the heart tissue of 84 newborns who had undergone surgery for congenital heart disease. Many patients with the disease develop thickened heart walls, or hypertrophy, which can lead to fatal heart failure even after the surgery.

Before birth, cardiac muscle cells use energy generated by breaking down glucose. Immediately after birth, they rapidly switch to breaking down fatty acids. This switch is hindered in hypertrophied newborn hearts. Fukushima and his team wanted to investigate how this happens at the molecular level.

In the study, published inThe Journal of Clinical Investigation Insight, the team compared the biopsy samples taken from normal and thickened right ventricular walls. They found that two enzymes involved in fatty acid break down, called LCAD and βHAD, were "hyperacetylated" in non-hypertrophied right ventricles. This means that large amounts of acetyl groups were added to the enzyme proteins, increasing their activity levels. This, in turn, led to increased fatty acid metabolism.

In hypertrophied hearts, these two enzymes were not hyperacetylated, leading to reduced fatty acid metabolism in these newborns. The team detected reduced activity of an acetylation-promoting gene, calledgcn5l1,in hypertrophied hearts.

When the team experimented on cultured hypertrophy-like cardiac muscle cells, they found that turning off thegcn5l1gene led to decreased acetylation of LCAD and βHAD, and a reduced fatty acid oxidation in the cells. Moreover, the cells lackinggcn5l1formed thicker muscle fibers comparing to normal cells.

"Our findings show that acetylation of metabolic enzymes plays an important role in controlling the dramatic changes in energy metabolism that occur in newborn hearts immediately after birth," says Arata Fukushima. "The findings also show how hypertrophy can perturb this process by delaying the maturation of fatty acid metabolism, which compromises the ability of the newborn heart to generate energy. Developing drugs that enhance acetylation of the metabolic enzymes could help treat patients with hypertrophy."

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