Bonnie N. Dittel scite author profile

Interleukin 17 (IL-17)-producing helper T cells (TH17 cells) require exposure to IL-23 to become encephalitogenic, but the mechanism by which IL-23 promotes their pathogenicity is not known. Here we found that IL-23 induced production of the cytokine granulocyte macrophage colony-stimulating factor (GM-CSF) in TH17 cells and that GM-CSF played an essential role in their encephalitogenicity. Our findings identify a chief mechanism that underlies the important role of IL-23 in autoimmune diseases. IL-23 induced a positive feedback loop whereby GM-CSF secreted by TH17 cells stimulated the production of IL-23 by antigen-presenting cells. Such cross-regulation of IL-23 and GM-CSF explains the similar pattern of resistance to autoimmunity when either of the two cytokines is absent and identifies TH17 cells as a crucial source of GM-CSF in autoimmune inflammation.

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Experimental Autoimmune Encephalomyelitis Induction in Genetically B Cell–deficient Mice

Wolf

et al. 1996

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Experimental autoimmune encephalomyelitis (EAE) is an animal model for autoimmune central nervous system disease mediated by CD4 T cells. To examine the role of B cells in the induction of EAE, we used B10.PL (I-Au) mice rendered deficient in B cells by deletion of their μ chain transmembrane region (B10.PLμMT). By immunizing B10.PL and B10.PLμMT mice with the NH-terminal myelin basic protein encephalitogenic peptide Ac1-11, we observed no difference in the onset or severity of disease in the absence of mature B cells. There was, however, a greater variation in disease onset, severity, and especially of recovery in the B cell–deficient mice compared to controls. B10.PLμMT mice rarely returned to normal in the absence of B cells. Taken together, our data suggest that B cells do not play a role in the activation of encephalitogenic T cells, but may contribute to the immune modulation of acute EAE. The mechanisms to explain these effects are discussed.

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Microglial cell activation and proliferation precedes the onset of CNS autoimmunity

Ponomarev

Shriver

Maresz

et al. 2005

J of Neuroscience Research

367

326

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Microglial cells are central nervous system (CNS) resident cells that are thought to become activated and contribute to the inflammation that occurs in the human autoimmune disease multiple sclerosis (MS). This has never been proven, however, because microglial cells cannot be phenotypically distinguished from peripheral macrophages that accumulate in MS inflammatory lesions. To study the kinetics and nature of microglial cell activation in the CNS, we used the animal model of MS, experimental autoimmune encephalomyelitis (EAE), and induced EAE in bone marrow (BM) chimera mice generated using major histocompatibility complex (MHC)-mismatched donor BM, allowing the separation of microglial cells and peripheral monocytes/macrophages. We found that microglial cell activation was evident before onset of disease symptoms and infiltration of peripheral myeloid cells into the CNS. Activated microglial cells underwent proliferation and upregulated the expression of CD45, MHC class II, CD40, CD86, and the dendritic cell marker CD11c. At the peak of EAE disease, activated microglial cells comprised 37% of the total macrophage and dendritic cell populations and colocalized with infiltrating leukocytes in inflammatory lesions. Our findings thus definitively demonstrate that during EAE, microglial cells become activated early in EAE disease and then differentiate into both macrophages and dendritic-like cells, suggesting they play an active role in the pathogenesis of EAE and MS.

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Bonnie N. Dittel

The encephalitogenicity of TH17 cells is dependent on IL-1- and IL-23-induced production of the cytokine GM-CSF

Experimental Autoimmune Encephalomyelitis Induction in Genetically B Cell–deficient Mice

Microglial cell activation and proliferation precedes the onset of CNS autoimmunity

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