Σφακιανάκης Αλέξανδρος
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Πέμπτη 21 Δεκεμβρίου 2017

Radial Glial Fibers Promote Neuronal Migration and Functional Recovery after Neonatal Brain Injury

Publication date: Available online 21 December 2017
Source:Cell Stem Cell
Author(s): Hideo Jinnou, Masato Sawada, Koya Kawase, Naoko Kaneko, Vicente Herranz-Pérez, Takuya Miyamoto, Takumi Kawaue, Takaki Miyata, Yasuhiko Tabata, Toshihiro Akaike, José Manuel García-Verdugo, Itsuki Ajioka, Shinji Saitoh, Kazunobu Sawamoto
Radial glia (RG) are embryonic neural stem cells (NSCs) that produce neuroblasts and provide fibers that act as a scaffold for neuroblast migration during embryonic development. Although they normally disappear soon after birth, here we found that RG fibers can persist in injured neonatal mouse brains and act as a scaffold for postnatal ventricular-subventricular zone (V-SVZ)-derived neuroblasts that migrate to the lesion site. This injury-induced maintenance of RG fibers has a limited time window during post-natal development and promotes directional saltatory movement of neuroblasts via N-cadherin-mediated cell-cell contacts that promote RhoA activation. Transplanting an N-cadherin-containing scaffold into injured neonatal brains likewise promotes migration and maturation of V-SVZ-derived neuroblasts, leading to functional improvements in impaired gait behaviors. Together these results suggest that RG fibers enable postnatal V-SVZ-derived neuroblasts to migrate toward sites of injury, thereby enhancing neuronal regeneration and functional recovery from neonatal brain injuries.

Graphical abstract

image

Teaser

Radial glia cells generate neuroblasts during embryonic cortical development and disappear soon after birth. Sawamoto and colleagues show that radial glia fibers are maintained in neonatal cortex in response to brain injury and support migration of postnatal V-SVZ-derived neurons, leading to behavioral recovery


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