Cleveland
Clinic researchers have discovered that a naturally occurring molecule may play
a role in preventing plaque buildup inside arteries, possibly leading to new
plaque-fighting drugs and improved screening of patients at risk of developing
atherosclerosis.
Sometimes called hardening or clogging of the
arteries, atherosclerosis is the buildup of cholesterol, fatty cells, and
inflammatory deposits on the inner walls of the arteries, restricting blood
flow to the heart. The disease can affect the arteries in the heart, legs,
brain, kidneys, and other organs, and is the most common cause heart attacks,
strokes, and peripheral
vascular disease.
At the cellular level, plaque buildup is
the result of macrophages in the vessel wall absorbing,
processing, and storing cholesterol (lipids) and then accumulating in large
amounts, eventually leading to the development of arterial lesions. The
researchers, led by Eugene Podrez, M.D., Ph.D., of the Department of Molecular
Cardiology at Cleveland Clinic's Lerner Research Institute, have discovered
that the naturally occurring molecule Akt3 regulates lipid entry into
macrophages and prevents the cells from storing excessive amounts of
cholesterol and collecting in the artery.
Podrez says the discovery could lead to new drugs designed to
prevent atherosclerosis. It could also help doctors develop screening tests to
determine patient risk level for developing the disease. Podrez and his
colleagues are now looking into the particular mechanisms behind Akt3's role in
regulating lipid processing and will attempt to replicate their results in
humans.
Provided by Cleveland Clinic
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