A new study by the team has identified plasma levels of two markers - microRNA 122 and 126 - that appear to decline a few days before a person suffers a heart attack. Results of the study could help the 715,000 Americans who suffer from heart attacks each year.
"It's always been a mystery trying to identify people with heart disease who are at imminent risk of having a heart attack," says
Researchers will present results of the study at the 2014
During a heart attack, one of the coronary arteries that feed blood into the heart becomes completely blocked, preventing necessary oxygen and nourishment from reaching the heart muscle. When this happens, the heart muscle dies and never recovers resulting in heart failure or death.
The discovery of the diminishing microRNA markers began with the understanding of a basic process in biology known as the central dogma. DNA contains the genetic information an organism uses to grow and develop. Messenger ribonucleic acid (mRNA) communicates this information to the rest of the body and translates the genetic information into protein. This is known as gene expression.
In 1993 scientists discovered small forms of RNA didn't follow standard translation patterns. These forms, known as microRNA, weren't making proteins, but rather were interfering with mRNA to prevent translation.
At the same time, physicians at the
Galenko and her team looked at samples in the registry from 30 patients who had suffered a heart attack within 44 days of having their blood collected.
Researchers examined factors such as age, gender, race, elevated amounts of or cholesterol in the bloodstream, high blood pressure, and diabetes. They noticed that within two weeks of experiencing a heart attack, patient's microRNA 122 and 126 dramatically dropped.
The result: Galenko believes that something about these microRNAs being present and interrupting the translation process prevents people with heart disease from having a heart attack.
"MicroRNAs turn things off. Whatever they usually turn off in people with heart disease before a heart attack isn't being turned off when microRNA levels are reduced, which may be causing something else to be activated," she says. "MicroRNAs act like a watch dog, and when their levels are reduced, heart disease takes a turn for the worse and heart attacks are likely to occur."
Further research is needed to find out more about what takes place when the microRNAs disappear, says Galenko.
"We need to do additional research with more samples, but we've found a pattern that may help us understand the factors that lead to a heart attack, and we've developed a lot more questions that further research will help answer," she says.
"Ultimately, our goal is to develop a test that predicts when a heart attack is going to occur in patients with heart disease," Galenko adds. "This would help physicians intervene proactively and stop heart attacks from happening. There are monitors people wear that detect blood chemistry, and if we really wanted to look into the future, perhaps we could develop something similar, something people who are at risk for a heart attack could wear to monitor these microRNAs."
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