Joslin Diabetes Center Harvard Medical School Department of Genetics
Using the model organism C. elegans, we study how regulatory pathways that are important in growth control influence stress defenses and aging, as well as relationships between stem cell function and aging.... Read more about Keith Blackwell, MD, PhD
Professor of Stem Cell and Regenerative Biology at Harvard University Professor of Medicine, Brigham and Women's Hospital
The Lee Laboratory uses biotechnologies to discover and design new approaches to cardiovascular and metabolic diseases. We work at this interface using a broad variety of techniques in genomics, stem cell biology, and molecular biology.... Read more about Richard Lee, M.D.
Massachusetts General Hospital Harvard Medical School Broad Institute of MIT and Harvard
The incidence and complexity of mental illnesses and cognitive impairments associated with ageing and Alzheimer’s disease underscores the need to develop novel treatments. Our mission is to generate fundamental insights into the role of adult hippocampal neurogenesis, the process by which neural stem cells generate dentate granule neurons throughout life, in hippocampal functions in encoding, memory processing and modulation of mood. ... Read more about Amar Sahay, PhD
Co-chair, Harvard Department of Stem Cell and Regenerative Biology Senior Investigator, Islet Cell and Regenerative Biology, Joslin Diabetes Center
Stem cells are rare and unique cells capable of generating many different types of cells needed in the body. In adult tissues, different organs contain different stem cell populations, each of which produces a subset of the body's cells. For example, hematopoietic (blood-forming) stem cells generate all of the red and white blood cells needed to deliver oxygen to body tissues, fight infection, and stop bleeding. Similarly, myogenic (muscle-forming) stem cells generate mature muscle fibers necessary for controlled contraction of skeletal muscle. Work in the Wagers Lab focuses on understanding the mechanisms that regulate the function of these blood-forming and muscle-forming stem cells so that their potential can be optimally exploited for the treatment of diseases such as cancer, anemia, muscular dystrophy, and diabetes.... Read more about Amy Wagers, PhD