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Early netrin-1 expression impairs central nervous system remyelination.

Annals of neurology (2014-06-20)
Vanja Tepavčević, Christophe Kerninon, Marie Stéphane Aigrot, Elodie Meppiel, Sabah Mozafari, Raphaelle Arnould-Laurent, Philippe Ravassard, Timothy E Kennedy, Brahim Nait-Oumesmar, Catherine Lubetzki
ABSTRACT

Chronically demyelinated multiple sclerosis (MS) lesions are frequently characterized by scarce undifferentiated oligodendrocyte progenitor cells (OPCs), suggesting the exhaustion of a local OPC pool followed by failure of recruitment and differentiation. Stimulating prompt OPC recruitment following demyelination could improve myelin repair by providing sufficient numbers of remyelinating cells during the repair-permissive period. Understanding mechanisms that determine this process may have important therapeutic implications. We therefore investigated the role of the guidance molecule netrin-1 in OPC recruitment and central nervous system (CNS) remyelination. Netrin-1 expression was analyzed immunohistochemically in different types of MS lesions and in the murine lysolecithin model of demyelination. The influence of netrin-1 on CNS remyelination was examined using gain and loss of function experiments. We show that in MS lesions, astrocytes upregulate netrin-1 expression early during demyelination and netrin-1 receptors are expressed by OPCs. In contrast, in the efficiently repairing lysolecithin model of demyelination (astrocyte-free), netrin-1 expression is absent during early phases and detected concomitant with completion of OPC recruitment. In vitro migration assays demonstrated that netrin-1 is a chemorepellent for migrating adult OPCs. In mouse lesions, antibody-mediated disruption of netrin-1 function at the peak phase of recruitment increased OPC numbers. Conversely, lentiviral-mediated induction of netrin-1 expression prior to OPC recruitment reduced the number of cells recruited and impaired remyelination. Our findings support the conclusion that netrin-1 expression within demyelinating MS plaques blocks OPC recruitment, which with repeated demyelinating episodes contributes to permanent remyelination failure.

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