Myelin-specific CD8+ T cells exacerbate brain inflammation in CNS autoimmunity
Catriona A. Wagner, Pamela J. Roqué, Trevor R. Mileur, Denny Liggitt, Joan M. Goverman
Catriona A. Wagner, Pamela J. Roqué, Trevor R. Mileur, Denny Liggitt, Joan M. Goverman
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Research Article Autoimmunity

Myelin-specific CD8+ T cells exacerbate brain inflammation in CNS autoimmunity

Abstract

Multiple sclerosis (MS) is an inflammatory, demyelinating disease of the CNS. Although CD4+ T cells are implicated in MS pathogenesis and have been the main focus of MS research using the animal model experimental autoimmune encephalomyelitis (EAE), substantial evidence from patients with MS points to a role for CD8+ T cells in disease pathogenesis. We previously showed that an MHC class I–restricted epitope of myelin basic protein (MBP) is presented in the CNS during CD4+ T cell–initiated EAE. Here, we investigated whether naive MBP-specific CD8+ T cells recruited to the CNS during CD4+ T cell–initiated EAE engaged in determinant spreading and influenced disease. We found that the MBP-specific CD8+ T cells exacerbated brain but not spinal cord inflammation. We show that a higher frequency of monocytes and monocyte-derived cells presented the MHC class I–restricted MBP ligand in the brain compared with the spinal cord. Infiltration of MBP-specific CD8+ T cells enhanced ROS production in the brain only in these cell types and only when the MBP-specific CD8+ T cells expressed Fas ligand (FasL). These results suggest that myelin-specific CD8+ T cells may contribute to disease pathogenesis via a FasL-dependent mechanism that preferentially promotes lesion formation in the brain.

Authors

Catriona A. Wagner, Pamela J. Roqué, Trevor R. Mileur, Denny Liggitt, Joan M. Goverman

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Figure 5

Increased presentation of MBP/Kk in the brain versus spinal cord is associated with enhanced activation of myeloid cells in the brain.

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Increased presentation of MBP/Kk in the brain versus spinal cord is asso...
(A) EAE was induced by transfer of MOG-specific CD4+ T cells into WT mice (n = 10). Mononuclear cells were isolated from the brains and spinal cords (SC) of mice on day 7 after CD4 T cell transfer. Percentages of 12H4+ cells among MdCs, monocytes, neutrophils, and microglia are shown. Gating strategy is shown in Supplemental Figure 6A. ****P < 0.0001 vs. MdCs isolated from the brain; ####P < 0.0001 vs. monocytes isolated from the brain; §§§§P < 0.0001 vs. both MdCs and monocytes from the brain; ††††P < 0.0001 vs. both MdCs and monocytes from the spinal cord. (B and C) EAE was induced by transfer of MOG-specific CD4+ T cells into WT mice that had received WT (n = 8) or 8.8 (n = 9) CD8+ T cells. Representative flow cytometry plots (B) and normalized MFIs (medians) (C) of ROS production (using CellROX) gated on MdCs and monocytes isolated from brains and spinal cords of mice on day 7 after CD4+ T cell transfer. MFIs are normalized to the MFI for T cell CellROX staining (Ctrl). (A and C) Graphs show mean + SEM (1 symbol per mouse) and are compiled from 2 independent experiments. Statistical significance was determined using a 2-way ANOVA with Šidák’s post-test (A) or Mann-Whitney U test (C). *P < 0.05, **P < 0.01.