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Turning on and off recurrent balanced cortical activity

Author

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  • Yousheng Shu

    (Yale University School of Medicine)

  • Andrea Hasenstaub

    (Yale University School of Medicine)

  • David A. McCormick

    (Yale University School of Medicine)

Abstract

The vast majority of synaptic connections onto neurons in the cerebral cortex arise from other cortical neurons, both excitatory and inhibitory, forming local and distant ‘recurrent’ networks. Although this is a basic theme of cortical organization, its study has been limited largely to theoretical investigations, which predict that local recurrent networks show a proportionality or balance between recurrent excitation and inhibition, allowing the generation of stable periods of activity1,2,3,4,5. This recurrent activity might underlie such diverse operations as short-term memory4,6,7, the modulation of neuronal excitability with attention8,9, and the generation of spontaneous activity during sleep5,10,11,12,13,14. Here we show that local cortical circuits do indeed operate through a proportional balance of excitation and inhibition generated through local recurrent connections, and that the operation of such circuits can generate self-sustaining activity that can be turned on and off by synaptic inputs. These results confirm the long-hypothesized role of recurrent activity as a basic operation of the cerebral cortex.

Suggested Citation

  • Yousheng Shu & Andrea Hasenstaub & David A. McCormick, 2003. "Turning on and off recurrent balanced cortical activity," Nature, Nature, vol. 423(6937), pages 288-293, May.
    • Handle: RePEc:nat:nature:v:423:y:2003:i:6937:d:10.1038_nature01616
    DOI: 10.1038/nature01616
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