IL-21 and IL-21 receptor expression in lymphocytes and neurons in multiple sclerosis brain.

IL-17-producing CD4(+) T cells (Th-17) contribute to the pathogenesis of experimental autoimmune encephalomyelitis and are associated with active disease in multiple sclerosis (MS). In addition to IL-17, Th-17 cells can also express IL-21, IL-22, and IL-6 under Th-17-polarizing conditions (IL-6 and transforming growth factor-ß). In this study we investigated IL-21 and IL-21 receptor (IL-21R) expression in MS lesions by in situ hybridization and immunohistochemistry. We detected strongly IL-21(+) infiltrating cells predominantly in acute but also in chronic active white matter MS lesions in which IL-21 expression was restricted to CD4(+) cells. In contrast, IL-21R was much more broadly distributed on CD4(+), CD19(+), and CD8(+) lymphocytes but not major histocompatibility complex class-II(+) macrophages/microglia. Interestingly, in cortical areas we detected both IL-21 and IL-21R expression by neurons. These findings suggest role(s) for IL-21 in both the acute and chronic stages of MS via direct effects on T and B lymphocytes and, demonstrated for the first time, also on neurons.

Opposing effects of HLA class I molecules in tuning autoreactive CD8+ T cells in multiple sclerosis.

The major known genetic risk factors in multiple sclerosis reside in the major histocompatibility complex (MHC) region. Although there is strong evidence implicating MHC class II alleles and CD4(+) T cells in multiple sclerosis pathogenesis, possible contributions from MHC class I genes and CD8(+) T cells are controversial. We have generated humanized mice expressing the multiple sclerosis-associated MHC class I alleles HLA-A(*)0301 (encoding human leukocyte antigen-A3 (HLA-A3)) and HLA-A(*)0201 (encoding HLA-A2) and a myelin-specific autoreactive T cell receptor (TCR) derived from a CD8(+) T cell clone from an individual with multiple sclerosis to study mechanisms of disease susceptibility. We demonstrate roles for HLA-A3-restricted CD8(+) T cells in induction of multiple sclerosis-like disease and for CD4(+) T cells in its progression, and we also define a possible mechanism for HLA-A(*)0201-mediated protection. To our knowledge, these data provide the first direct evidence incriminating MHC class I genes and CD8(+) T cells in the pathogenesis of human multiple sclerosis and reveal a network of MHC interactions that shape the risk of multiple sclerosis.