Goverman, Joan MLee, Sarah Y.2013-07-232013-07-232013-07-232013Lee_washington_0250E_11503.pdfhttp://hdl.handle.net/1773/22773Thesis (Ph.D.)--University of Washington, 2013Multiple sclerosis (MS) is an inflammatory, demyelinating disease of the central nervous system (CNS) mediated by self-reactive, myelin-specific T cells. Both CD4+ and CD8+ T cells play important roles in the pathogenesis of MS. MS is studied using experimental autoimmune encephalomyelitis (EAE), an animal model mediated by myelin-specific T cells. Tim-3 is a cell-surface receptor expressed on CD4+ IFN--secreting Th1 cells, and triggering Tim-3 signaling ameliorated EAE by inducing death in pathogenic Th1 cells in vivo. This suggested that enhancing Tim-3 signaling might be beneficial in patients with MS. However, Tim-3 is also expressed on activated CD8+ T cells, microglia, and dendritic cells (DCs), and the combined effect of manipulating Tim-3 signaling on these cell types during CNS autoimmunity is unknown. Furthermore, CD4+ IL-17-secreting Th17 cells also play a role in MS but do not express high levels of Tim-3. We investigated Tim-3 signaling in EAE models that include myelin-specific Th17, Th1 and CD8+ T cells. We found that preventing Tim-3 signaling in CD4+ T cells altered the inflammatory pattern in the CNS due to differential effects on Th1 versus Th17 cells. In contrast, preventing Tim-3 signaling during CD8+ T cell-mediated EAE exacerbated disease. We also analyzed the importance of Tim-3 signaling in EAE in innate immune cells. Tim-3 signaling in DCs and microglia did not affect the manifestation of EAE in these models. These results indicate that the therapeutic efficacy of targeting Tim-3 in EAE is dependent on the nature of the effector T cells contributing to the disease.application/pdfen-USCopyright is held by the individual authors.Autoimmunity; EAE/MS; Neuroimmunology; T cellsImmunologyimmunologyThesis