Crossing boundaries: Interplay between the immune system and oligodendrocyte lineage cells

Abstract

Oligodendrocytes and their progenitors are glial cells in the central nervous system, which have been mainly implicated with the homeostatic roles of axonal myelin ensheathment but serve as targets of the peripheral immune system attack in the context of diseases like multiple sclerosis. This view of oligodendroglia as passive bystanders with no immunological properties was first challenged in the 1980s when it was reported that the cytokine interferon γ could induce the gene expression of the major histocompatibility complexes (MHC) class I and II. While the physiological role of this induction was controversial for decades to follow, recent studies suggest that oligodendroglia survey their environment, respond to a larger array of cues and can indeed exert immunomodulatory functions, which are particularly relevant in the context of neurodegeneration and demyelinating diseases. The alternative functionality of oligodendroglia not only regulates immune cell responses, but also hinders remyelination, and might thereby be key to understanding MS disease pathology and promoting regeneration after immune-mediated demyelination.

Keywords: Aging; Astrocyte; Glia; Interferon-gamma; Major histocompatibility complex; Multiple sclerosis; Myelin; Neuroimmunology; Oligodendrocyte; T-cell.