Donna Woulfe

Education

• B.S. - Bucknell University (Major: Biology, Minor: Biochemistry)
• Ph.D. - University of Pennsylvania (Pharmacology)
• Post-Doctoral Fellowship - University of Pennsylvania
   

Teaching

• BISC690 - Fundamentals of Pharmacology
• BISC850 - Functions of Microparticles
• BISC403 - Genetic and Evolutionary Biology

Research Interests

Dr. Woulfe's research interests focus primarily on the intracellular signaling mechanisms of platelet activation and how signaling in platelets contributes to thrombosis in vivo. Agonists that extend formation of the platelet plug generally bind to G protein-coupled receptors on the platelet surface. Dr. Woulfe's previous studies have focused on how platelets become activated by agonists that bind to G protein-coupled receptors and how platelet signaling stabilizes platelet aggregates as they grow. A key finding from these studies was that platelets from mice lacking certain isoforms of the serine/threonine kinase Akt (particularly Akt2) have defects in platelet secretion, fibrinogen binding, and stable aggregate formation. Akt2-/- mice are also resistant to thrombosis in an arterial injury model. In contrast, the Akt substrate, Glycogen synthase kinase (GSK)3beta, is a negative regulator of platelet signaling and thrombosis. Platelets from mice lacking one allele of GSK3beta are hyperresponsive to agonists and the mice are more susceptible to thrombosis than their wildtype counterparts. We have more recently shown that arrestin-2 regulates the function of PI3K and Akt signaling and function in platelets and have new collaborative projects centered on understanding the influence of hyperglycemia/diabetes on platelet function in vitro and in vivo.