Potential genetic regulators of the heartbeat identified by UT Southwestern researchers
UT Southwestern Medical Center researchers have mapped gene control elements in specialized cardiac cells responsible for coordinating heartbeats. The findings of the genome exploration study, published in The Journal of Clinical Investigation, provide insight into how heartbeats are regulated and could impact diagnosis and risk prediction for a variety of common arrhythmias.
The cardiac conduction system, which comprises about 1%-5% of the heart cell population, coordinates a series of electrical impulses to ensure efficient heartbeat and blood circulation. Failure of this system to work properly can result in arrhythmias such as atrial fibrillation, sinus bradycardia, atrioventricular block, and ventricular tachycardia. Despite this vital function, little is known about the genetics and molecular makeup of this small group of heart cells.
Dr. Munshi and his team of UT Southwestern researchers sought to determine the control components of the cardiac conduction system. Using a technique previously developed by the Munshi lab (PAN-INTACT) and published in PLoS One, the team isolated nuclei – which contain the cells’ genetic material – from mouse cardiac conduction system cells. Using a second method called ATAC-Seq, they identified parts of the genome that control gene expression, known as cis-regulatory elements (CREs).
The researchers gathered their results to establish a CRE database that can be used to better understand the functions of these cells and how they’re regulated and help to interpret human variants associated with arrhythmias.