Timely Schwann cell division during migration drives peripheral myelination in vivo via Laminin/cAMP pathway

Schwann cells (SC) migrate along peripheral axons and divide intensively to generate the right number of cells prior to axonal ensheathment; however, little is known regarding the temporal and molecular control of their division, particularly during migration, and its impact on myelination. We report that Sil, a spindle pole protein associated with autosomal recessive primary microcephaly (MCPH), is required for temporal mitotic exit of SC. In sil-deficient cassiopeia (csp-/-) mutants, SC fail to radially sort and myelinate peripheral axons. Elevation of cAMP, but not Rac1 activity in csp-/- restores myelin ensheathment. Most importantly, we show a significant decrease in Laminin expression within csp-/- posterior lateral line nerve and that forcing Laminin2 expression in csp-/- fully restores SC ability to myelinate. We also discovered that SC have a restricted time window during which they have to divide, while migrating, in order to trigger myelination. Thus, we unravel a novel and essential role for timely SC division during migration in mediating Laminin expression to orchestrate radial sorting and peripheral myelination in vivo. ### Competing Interest Statement The authors have declared no competing interest.