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Modular strategy for development of the hierarchical visual network in mice

Tomonari Murakami (), Teppei Matsui (), Masato Uemura and Kenichi Ohki ()
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Tomonari Murakami: The University of Tokyo
Teppei Matsui: The University of Tokyo
Masato Uemura: The University of Tokyo
Kenichi Ohki: The University of Tokyo

Nature, 2022, vol. 608, issue 7923, 578-585

Abstract: Abstract Hierarchical and parallel networks are fundamental structures of the mammalian brain1–8. During development, lower- and higher-order thalamic nuclei and many cortical areas in the visual system form interareal connections and build hierarchical dorsal and ventral streams9–13. One hypothesis for the development of visual network wiring involves a sequential strategy wherein neural connections are sequentially formed alongside hierarchical structures from lower to higher areas14–17. However, this sequential strategy would be inefficient for building the entire visual network comprising numerous interareal connections. We show that neural pathways from the mouse retina to primary visual cortex (V1) or dorsal/ventral higher visual areas (HVAs) through lower- or higher-order thalamic nuclei form as parallel modules before corticocortical connections. Subsequently, corticocortical connections among V1 and HVAs emerge to combine these modules. Retina-derived activity propagating the initial parallel modules is necessary to establish retinotopic inter-module connections. Thus, the visual network develops in a modular manner involving initial establishment of parallel modules and their subsequent concatenation. Findings in this study raise the possibility that parallel modules from higher-order thalamic nuclei to HVAs act as templates for cortical ventral and dorsal streams and suggest that the brain has an efficient strategy for the development of a hierarchical network comprising numerous areas.

Date: 2022
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DOI: 10.1038/s41586-022-05045-w

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