| Literature DB >> 27693257 |
Cristina A de Frutos1, Guy Bouvier2, Yoko Arai3, Morgane S Thion1, Ludmilla Lokmane1, Maryama Keita1, Mario Garcia-Dominguez4, Patrick Charnay5, Tatsumi Hirata6, Dieter Riethmacher7, Elizabeth A Grove8, Fadel Tissir9, Mariano Casado2, Alessandra Pierani3, Sonia Garel10.
Abstract
The neocortex undergoes extensive developmental growth, but how its architecture adapts to expansion remains largely unknown. Here, we investigated how early born Cajal-Retzius (CR) neurons, which regulate the assembly of cortical circuits, maintain a dense superficial distribution in the growing neocortex. We found that CR cell density is sustained by an activity-dependent importation of olfactory CR cells, which migrate into the neocortex after they have acted as axonal guidepost cells in the olfactory system. Furthermore, using mouse genetics, we showed that CR cell density severely affects the architecture of layer 1, a key site of input integration for neocortical networks, leading to an excitation/inhibition ratio imbalance. Our study reveals that neurons reenter migration several days after their initial positioning, thereby performing sequential developmental roles in olfactory cortex and neocortex. This atypical process is essential to regulate CR cell density during growth, which in turn ensures the correct wiring of neocortical circuitry. VIDEO ABSTRACT.Entities:
Keywords: Cajal-Retzius cells; E/I ratio; NMDA receptors; interneurons; layer 1; marginal zone; migration; neocortex; olfactory cortex
Mesh:
Year: 2016 PMID: 27693257 DOI: 10.1016/j.neuron.2016.09.020
Source DB: PubMed Journal: Neuron ISSN: 0896-6273 Impact factor: 17.173