Abstract

SummaryResearch indicates a role for EBI2 receptor in remyelination, demonstrating that its deficiency or antagonism inhibits this process. However, activation of EBI2 with its endogenous ligand, oxysterol 7α,25-dihydroxycholesterol (7α,25OHC), does not enhance remyelination beyond the levels observed in spontaneously remyelinating tissue. We hypothesized that the short half-life of the natural ligand might explain this lack of beneficial effects and tested a synthetic analogue, CF3-7α,25OHC, in the cuprizone model. The data showed that extending the bioavailability of 7α,25OHC is sufficient to accelerate remyelination in vivo. Moreover, the analogue, in contrast to the endogenous ligand, upregulated brain expression of Ebi2 and the synthesis of 15 lipids in the mouse corpus callosum. Mechanistically, the increased concentration of oxysterol likely disrupted its gradient in demyelinated areas of the brain, leading to the dispersion of infiltrating EBI2-expressing immune cells rather than their accumulation in demyelinated regions. Remarkably, the analogue CF3-7α,25OHC markedly decreased the lymphocyte and monocyte counts mimicking the key mechanism of action of some of the most effective disease-modifying therapies for multiple sclerosis. Furthermore, the Cd4+ transcripts in the cerebellum and CD4+ cell number in the corpus callosum were reduced compared to vehicle-treated mice. These findings suggest a mechanism by which EBI2/7α,25OHC signalling modulates the immune response and accelerates remyelination in vivo.

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