The emergence of the spatial structure of the tectum's spontaneous activity is independent of visual inputs

THOMAS PIETRI; SEBASTIAN A. ROMANO; JONATHAN BOULANGER-WEILL; VIRGINIE CANDAT; VERÓNICA PÉREZ SCHUSTER; GERMAN SUMBRE

Cells Reports

Elsevier

Año: 2017

2211-1247

The brain is spontaneously active even in the absence of sensory stimulation. The functionally mature zebrafish optic tectum shows spontaneous activity patterns reflecting a functional connectivity adapted for the circuit?s functional role, and predictive of behavior. However, neither the emergence of these patterns during development, nor the role of retinal inputs in their maturation, have been characterized.Using two-photon calcium imaging, we analyzed spontaneous activity in intact and enucleated zebrafish larvae throughout tectum development. At the onset of retinotectal connections, intact larvae showed major changes in the spatiotemporal structure of spontaneous activity. Although the absence of retinal inputs had a significant impact on the development of the temporal structure, the tectum was still capable of developing a spatial structure associated with the circuit´s functional roles, and predictive of behavior.We conclude that neither visual experience nor intrinsic retinal activity are essential for the emergence of a spatially structured functional circuit.