October 29, 2018 - 4:00 pm

Barbara A. Osborne, Ph.D.
Professor, Veterinary and Animal Sciences
Co-director, Center for Bioactive Delivery, Institute for Applied Life Sciences
University of Massachusetts, Amherst

Research in the Osborne Lab
The Osborne laboratory focuses on the differentiation and function of mature CD4+ lymphocytes. In particular, we are interested in the role of Notch proteins in CD4+ maturation and function. Over the past several years, we have demonstrated that Notch plays a critical role in the differentiation of the T-helper 1 (Th1) and T-helper17 (Th17) subsets of T cells. Both Th1 and Th17 cells have been implicated in several diseases, including experimental autoimmune encephalomyelitis (EAE), a mouse model of multiple sclerosis. Using gamma-secretase inhibitors (GSIs), compounds that block the activation of Notch, we have found that we can block the development of EAE in mice, suggesting that GSIs may be a possible therapeutic for the treatment of MS. Our current studies are focused on determining how Notch signaling influences the development of EAE, as well as determining which Notch family member is important in the development of disease. In mammals, there are four Notch family members, and it is unclear which Notch family member is most important in driving EAE.

Notch signaling is initiated by two enzymatic cleavages. The first cleavage, driven by ADAM proteases, is required for the second cleavage, mediated by gamma-secretase, which results in the release of the intra-cellular domain of Notch and initiates the Notch signaling cascade. Notch signaling can be blocked by gamma-secretase inhibitors, and our lab, in collaboration with colleagues at UMass, UFlorida and LSU Medical School, investigates how gamma-secretase inhibition may be used to modulate immune responses. We also are actively investigating whether Notch signaling in CD4+ T cells is mediated through canonical Notch signaling. Our data suggest Notch signaling in T cells occurs through a non-canonical pathway and current research is focused on a clearer description of this non-canonical pathway.

Contact Info

Karen Racz
(413) 542-2097
image of e-mail address@amherst.edu