4.4 Article

Asymmetry and modulation of spike timing in electrically coupled neurons

Journal

JOURNAL OF NEUROPHYSIOLOGY
Volume 113, Issue 6, Pages 1743-1751

Publisher

AMER PHYSIOLOGICAL SOC
DOI: 10.1152/jn.00843.2014

Keywords

asymmetry; electrical synapses; gap junction; modulation

Funding

  1. Brain & Behavior Research Foundation

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Electrical coupling mediates interactions between neurons of the thalamic reticular nucleus (TRN), which play a critical role in regulating thalamocortical and corticothalamic communication by inhibiting thalamic relay cells. Accumulating evidence has shown that asymmetry of electrical synapses is a fundamental and dynamic property, but the effect of asymmetry on coupled networks is unexplored. Recording from patched pairs in rat brain slices, we investigate asymmetry in the subthreshold regime and show that electrical synapses can exert powerful effects on the spike times of coupled neighbors. Electrical synaptic signaling modulates spike timing by 10-20 ms, in an effect that also exhibits asymmetry. Furthermore, we show through modeling that coupling asymmetry expands the set of outputs for pairs of coupled neurons through enhanced regions of synchrony and reversals of spike order. These results highlight the power and specificity of signaling exerted by electrical synapses, which contribute to information flow across the brain.

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