Pharmacological modulation of inflammatory oligodendrocyte progenitor cells using three multiple sclerosis disease modifying therapies in vitro.

Preclinical studies of pro-remyelinating therapies for multiple sclerosis tend to neglect the effect of the disease-relevant inflammatory milieu. Interferon-gamma (IFN-γ) is known to suppress oligodendrocyte progenitor cell (OPC) differentiation and induce a recently described immune OPC (iOPC) phenotype characterized by expression of major histocompatibility complex (MHC) molecules. We tested the effects of cladribine (CDB), dimethylfumarate (DMF), and interferon-beta (IFN-β), existing anti-inflammatory therapies for MS, on the IFN-γ-induced iOPC formation and OPC differentiation block. In line with previous reports, we demonstrate that IFN-β and DMF inhibit OPC proliferation, while CDB had no effect. None of the drugs exhibited cytotoxic effects at the physiological concentrations tested in vitro. In a differentiation assay, none of the drugs were able to promote differentiation, under inflammatory or basal conditions. To study drug effects on iOPCs, we monitored MHC expression in vitro with live cell imaging using cells isolated from MHC reporter mice. IFN-β suppressed induction of MHC class II, and DMF led to suppression of both class I and II. CDB had no effect on MHC induction. We conclude that promoting proliferation and differentiation and suppressing iOPC induction under inflammatory conditions may require separate therapeutic strategies and must be balanced for maximal repair. Our in vitro MHC screening assay can be leveraged across cell types to test the effects of drug candidates and disease-related stimuli.