Demyelination in MS disrupts nerve signals and contributes to axon degeneration. While remyelination promises to restore lost function, it remains unclear whether remyelination will prevent axonal loss. Inflammatory demyelination is accompanied by significant neuronal loss in the experimental autoimmune encephalomyelitis (EAE) mouse model and evidence for remyelination in this model is complicated by ongoing inflammation, degeneration and possible remyelination. Demonstrating the functional significance of remyelination necessitates selectively altering the timing of remyelination relative to inflammation and degeneration. We demonstrate accelerated remyelination after EAE induction by direct lineage analysis and hypothesize that newly formed myelin remains stable at the height of inflammation due in part to the absence of MOG expression in immature myelin. Oligodendroglial-specific genetic ablation of the M1 muscarinic receptor, a potent negative regulator of oligodendrocyte differentiation and myelination, results in accelerated remyelination, preventing axonal loss and improving functional recovery. Together our findings demonstrate that accelerated remyelination supports axonal integrity and neuronal function after inflammatory demyelination.DOI:
http://dx.doi.org/10.7554/eLife.18246.001
Dimethyl fumarate (DMF) (BG-12, Tecfidera) is a fumaric acid ester (FAE) that was advanced as a multiple sclerosis (MS) therapy largely for potential neuroprotection as it was recognized that FAEs are capable of activating the antioxidative transcription factor nuclear factor (erythroid-derived 2)-like 2 (Nrf2) pathway. However, DMF treatment in randomized controlled MS trials was associated with marked reductions in relapse rate and development of active brain MRI lesions, measures considered to reflect CNS inflammation. Here, we investigated the antiinflammatory contribution of Nrf2 in DMF treatment of the MS model, experimental autoimmune encephalomyelitis (EAE). C57BL/6 wild-type (WT) and Nrf2-deficient (Nrf2 −/− ) mice were immunized with myelin oligodendrocyte glycoprotein (MOG) peptide 35-55 (p35-55) for EAE induction and treated with oral DMF or vehicle daily. DMF protected WT and Nrf2 −/− mice equally well from development of clinical and histologic EAE. The beneficial effect of DMF treatment in Nrf2 −/− and WT mice was accompanied by reduced frequencies of IFN-γ and IL-17-producing CD4 + cells and induction of antiinflammatory M2 (type II) monocytes. DMF also modulated B-cell MHC II expression and reduced the incidence of clinical disease in a B-cell-dependent model of spontaneous CNS autoimmunity. Our observations that oral DMF treatment promoted immune modulation and provided equal clinical benefit in acute EAE in Nrf2 −/− and WT mice, suggest that the antiinflammatory activity of DMF in treatment of MS patients may occur through alternative pathways, independent of Nrf2.multiple sclerosis | dimethyl fumarate | Nrf2 | EAE | M2 monocytes
Graphical Abstract Highlights d Pegilodecakin induces systemic and intratumoral CD8 + T cell activation in patients d PD-1 + Lag3 + CD8 + T cells and previously undetected T cell clones are expanded d IFN-g, IL-18, GranzymeB, and FasL are elevated across tumor types d The magnitude of systemic immune activation correlates with tumor response SUMMARYTumor-reactive T cell exhaustion prevents the success of immune therapies. Pegilodecakin activates intratumoral CD8 + T cells in mice and induces objective tumor responses in patients. Here we report that pegilodecakin induces hallmarks of CD8 + T cell immunity in cancer patients, including elevation of interferon-g and GranzymeB, expansion and activation of intratumoral CD8 + T cells, and proliferation and expansion of LAG-3 + PD-1 + CD8 + T cells. On pegilodecakin, newly expanded T cell clones, undetectable at baseline, become 1%-10% of the total T cell repertoire in the blood. Elevation of interleukin-18, expansion of LAG-3 + PD-1 + T cells and novel T cell clones each correlated with objective tumor responses. Combined pegilodecakin with anti-PD-1 increased the expansion of LAG-3 + PD-1 + CD8 + T cells.
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