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Experimental autoimmune encephalomyelitis (EAE) is a CD4(+) Th1 T cell-mediated disease of the CNS, used to study certain aspects of multiple sclerosis. CXCR3, the receptor for CXCL10, CXCL9, and CXCL11, is preferentially expressed on activated Th1 T cells and has been proposed to govern the migration of lymphocytes into the inflamed CNS during multiple sclerosis and EAE. Unexpectedly, CXCL10-deficient mice were susceptible to EAE, leaving uncertain what the role of CXCR3 and its ligands might play in this disease model. In this study, we report that CXCR3(-/-) mice exhibit exaggerated severity of EAE compared with wild-type (CXCR3(+/+)) littermate mice. Surprisingly, there were neither quantitative nor qualitative differences in CNS-infiltrating leukocytes between CXCR3(+/+) and CXCR3(-/-) mice with EAE. Despite these equivalent inflammatory infiltrates, CNS tissues from CXCR3(-/-) mice with EAE showed worsened blood-brain barrier disruption and more von Willebrand factor-immunoreactive vessels within inflamed spinal cords, as compared with CXCR3(+/+) mice. Spinal cords of CXCR3(-/-) mice with EAE demonstrated decreased levels of IFN-gamma, associated with reduced inducible NO synthase immunoreactivity, and lymph node T cells from CXCR3(-/-) mice primed with MOG(35-55) secreted less IFN-gamma in Ag-driven recall responses than cells from CXCR3(+/+) animals. CXCR3(-/-) lymph node T cells also showed enhanced Ag-driven proliferation, which was reduced by addition of IFN-gamma. Taken with prior findings, our data show that CXCL10 is the most relevant ligand for CXCR3 in EAE. CXCR3 does not govern leukocyte trafficking in EAE but modulates T cell IFN-gamma production and downstream events that affect disease severity.

Severe Disease, Unaltered Leukocyte Migration, and Reduced IFN-γ Production in CXCR3−/− Mice with Experimental Autoimmune Encephalomyelitis