BCAS1-positive oligodendrocytes enable efficient cortical remyelination in multiple sclerosis.

Abstract

Remyelination is a crucial regenerative process in demyelinating diseases, limiting persisting damage to the central nervous system (CNS). It restores saltatory nerve conduction and ensures trophic support of axons. In multiple sclerosis (MS) patients, remyelination has been observed in both white and grey matter and found to be more efficient in the cortex. Brain-enriched myelin-associated protein 1 (BCAS1) identifies oligodendrocyte lineage cells in the stage of active myelin formation in development and regeneration. Other than in the white matter, BCAS1+ oligodendrocytes are maintained at high densities in the cortex throughout life. Here, we investigated cortical lesions in human biopsy and autopsy tissue from patients with MS in direct comparison to demyelinating mouse models and demonstrate that following a demyelinating insult BCAS1+ oligodendrocytes in remyelinating cortical lesions shift from a quiescent to an activated, internode-forming morphology co-expressing myelin-associated glycoprotein (MAG), necessary for axonal contact formation. Noteworthy, activated BCAS1+ oligodendrocytes are found at early time points of experimental demyelination amidst ongoing inflammation. In human tissue, activated BCAS 1+ oligodendrocytes correlate with the density of myeloid cells, further supporting their involvement in an immediate regenerative response. Furthermore, studying the microscopically normal appearing non demyelinated cortex in patients with chronic MS, we find a shift from quiescent BCAS1+ oligodendrocytes to mature, myelin-maintaining oligodendrocytes, suggesting oligodendrocyte differentiation and limited replenishment of BCAS1+ oligodendrocytes in long-standing disease. We also demonstrate that part of perineuronal satellite oligodendrocytes are BCAS1+ and contribute to remyelination in human and experimental cortical demyelination. In summary, our results provide evidence from human tissue and experimental models that BCAS1+ cells in the adult cortex represent a population of pre-differentiated oligodendrocytes that rapidly react after a demyelinating insult thus enabling immediate myelin regeneration. In addition, our data suggest that limited replenishment of BCAS1+ oligodendrocytes may contribute to the remyelination failure observed in the cortex in chronic MS.