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- Rachel Antonioli-Santos, Bruna Lanzillotta-Mattos, Cecília Hedin-Pereira, and Claudio Alberto Serfaty.
- Federal Fluminense University, Biology Institute, Neurobiology Department, Laboratory of Neuroplasticity - Niteroi, PO Box: 100180, Brazil; Institute of Biomedical Research, Marcílio Dias Navy Hospital, Rio de Janeiro, Brazil.
- Neuroscience. 2017 Aug 15; 357: 264-272.
AbstractDuring postnatal development, neural circuits are extremely dynamic and develop precise connection patterns that emerge as a result of the elimination of synaptic terminals, a process instructed by molecular cues and patterns of electrical activity. In the rodent visual system, this process begins during the first postnatal week and proceeds during the second and third postnatal weeks as spontaneous retinal activity and finally use-dependent fine tuning takes place. Reelin is a large extracellular matrix glycoprotein able to affect several steps of brain development, from neuronal migration to the maturation of dendritic spines and use-dependent synaptic development. In the present study, we investigated the role of reelin on the topographical refinement of primary sensory connections studying the development of retinal ganglion cell axon terminals in the rat superior colliculus. We found that reelin levels in the visual layers of the superior colliculus are the highest between the second and third postnatal weeks. Blocking reelin signaling with a neutralizing antibody (CR-50) from PND 7 to PND 14 induced a non-specific sprouting of ipsilateral retinocollicular axons outside their typical distribution of discrete patches of axon terminals. Also we found that reelin blockade resulted in reduced levels of phospho-GAP43, increased GluN1 and GluN2B-NMDA subunits and decreased levels of GAD65 content in the visual layers of the superior colliculus. The results suggest that reelin signaling is associated with the maturation of excitatory and inhibitory synaptic machinery influencing the development and fine tuning of topographically organized neural circuits during postnatal development.Copyright © 2017 IBRO. Published by Elsevier Ltd. All rights reserved.
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