TITLE:
Selective and constructive mechanisms contribute to neural circuit formation in the barrel cortex of the developing rat
AUTHORS:
Eileen Uribe-Querol, Eduardo Martínez-Martínez, Luis Rodrigo Hernández, Patricia Padilla Cortés, Horacio Merchant-Larios, Gabriel Gutiérrez-Ospinac
KEYWORDS:
Barrel Cortex; Synaptogenesis; Axonal Growth; Dendritic Growth; Thalamocortical Pathway
JOURNAL NAME:
Advances in Bioscience and Biotechnology,
Vol.4 No.7,
July
17,
2013
ABSTRACT: The cellular strategy leading to formation of neuronal circuits in the rodent barrel cortex is still a matter of controversy. Both selective and constructive mechanisms have been proposed. The selective mechanism involves an overproduction of neuronal processes and synapses followed by activity dependent pruning. Conversely, a constructive mechanism would increase the number of axons, dendrites, and synapses during development to match functionality. In order to discern the contributions of these two mechanisms in establishing a neuronal circuit in the somatosensory cortex, morphometric analysis of dendritic and axonal arbor growth was performed. Also, the number of synapses was followed by electron microscopy during the first month of life. We observed that axonal and dendritic arbors retracted distal branches, and elongated proximal branches, resulting in increased arbor complexity. This neuronal remodeling was accompanied by the steady increase in the number of synapses within barrel hollows. Similarly, the content of molecular markers for dendrites, axons and synapses also increased during this period. Finally, cytochrome oxidase activity rose with age in barrels indicating that the arbors became more complex while synapse density and metabolic demands increased. Our results support the simultaneous use of both selective and constructive mechanisms in establishing the barrel cortex circuitry.