Sekar Kathiresan | AIChE

Sekar Kathiresan

CEO
Verve Therapeutics

Dr. Sekar Kathiresan is co-founder and CEO of Verve Therapeutics, a biotechnology company pioneering a new approach to the care of cardiovascular disease, transforming treatment from chronic management to single-course gene editing medicines. Dr. Kathiresan is a cardiologist and scientist who has focused his career on understanding the inherited basis for heart attack and leveraging those insights to improve the care of cardiovascular disease. Based on his groundbreaking discoveries in human genetic mutations that confer resistance to cardiovascular disease, Dr. Kathiresan co-founded Verve Therapeutics with a vision to create a pipeline of single-course, gene editing therapies focused on addressing the root causes of this highly prevalent and life-threatening disease. Today, Verve is advancing two initial programs that target PCSK9 and ANGPTL3, respectively – genes that have been extensively validated by Dr. Kathiresan and others as targets for lowering blood lipids, such as low-density lipoprotein cholesterol, which is a major driver of cardiovascular disease.

Prior to joining Verve, Dr. Kathiresan’s roles included director of the Massachusetts General Hospital (MGH) Center for Genomic Medicine, director of the Cardiovascular Disease Initiative at the Broad Institute and professor of medicine at Harvard Medical School. There, Dr. Kathiresan’s research laboratory focused on understanding the inherited basis for blood lipids and myocardial infarction. For his research contributions, he has been recognized by the American Heart Association with its highest scientific honor - a Distinguished Scientist Award and by the American Society of Human Genetics with the 2018 Curt Stern Award.

Dr. Kathiresan graduated summa cum laude with a B.A. in history from the University of Pennsylvania and received his M.D. from Harvard Medical School. He completed his clinical training in internal medicine and cardiology at MGH and his postdoctoral research training in human genetics at the Framingham Heart Study and the Broad Institute.