Dynamic alterations of dural and bone marrow B cells in an animal model of progressive multiple sclerosis

In multiple sclerosis (MS), the leptomeninges (LM) are populated with immune cell aggregates that correlate with disease progression. The impact of LM inflammation on the adjacent dura is largely unknown. Using a mouse model of MS that induces brain LM inflammation and age-dependent disease progression, we found that encephalitogenic T cells and B220^high B cells accumulate substantially in the brain LM and parenchyma of both young and aged mice, while the adjacent dura remains relatively inert. We also observed a population of anti-CD20–resistant B220^low B cells in the dura and bone marrow that virtually disappear at disease onset and accumulate in the brain of young mice concomitant with disease remission. In contrast, aged mice show a paucity of brain-resident B220^low B cells at the expense of class-switched B220^high B cells accompanied by severe, chronic disease. In summary, dynamic changes in the brain, LM, and dural B cells are associated with age-dependent disease severity in an animal model of progressive MS.