Neuronal Nogo-A in New-born Retinal Ganglion Cells: Implication for the Formation of the Age-related Fiber Order in the Optic Tract.

Nogo-A is highly expressed in oligodendrocytes in the adult central nervous system (CNS). Recently it was found that Nogo-A is also expressed in some neuronal types during development. Here, we examined the expression pattern of Nogo-A in both the retina and optic tract (OT) of mouse embryos from E12 to E15. After perturbation of its function in the OT for 5 hr in the brain slice culture system using a Nogo-A specific antibody or antagonist of its receptor (NEP1-40), the optic nerve fibers and growth cones were traced with DiI. We showed that most Tuj-1 positive new-born neurons at E12 were Nogo-A positive. At E15, retinal neurons reduced the Nogo-A expression. It was worth noting that some projecting axons expressed Nogo-A along the retinofugal pathway. On the basis of their specific locations within the superficial half of the OT and the colocalization with GAP-43 (a marker for the newly born growth cones and axons), we concluded that those Nogo-A positive axons were the newly arrived retinal fibers. Blocking the function of Nogo-A with Nogo-A antibody or NEP1-40 resulted in the shift of DiI labeled axons and growth cones from the superficial half to the whole depth of the OT. These results indicate that Nogo-A in the newly born retinal ganglion cells (RGCs) and their axons are involved in sorting out the newly arrived axons to the subpial region of the OT. Anat Rec, 299:1027-1036, 2016. © 2016 Wiley Periodicals, Inc.