Dendritic Na+ current inactivation can increase cell excitability by delaying a somatic depolarizing afterpotential

doi:10.1152/jn.00653.2005

Dendritic Na⁺ current inactivation can increase cell excitability by delaying a somatic depolarizing afterpotential

Fernando R. Fernandez¹, William H. Mehaffey¹, and Ray W. Turner¹^*

¹ Hotchkiss Brain Institute, University of Calgary, Calgary, Alberta, Canada

^* To whom correspondence should be addressed. E-mail: rwturner{at}ucalgary.ca.

Many central neurons support active dendritic spike backpropagationmediated by voltage-gated currents. Active spikes in dendriteshave been shown capable of providing feedback to the soma toinfluence somatic excitability and firing dynamics through adepolarizing afterpotential (DAP). In pyramidal cells of theelectrosensory lobe of weakly electric fish Na⁺ spikes in dendritesundergo a frequency-dependent broadening that enhances the DAPto increase somatic firing frequency. We use a combination ofdynamical analysis and electrophysiological recordings to demonstratethat spike broadening in dendrites is primarily caused by acumulative inactivation of dendritic Na⁺ current. We furthershow that a reduction in dendritic Na⁺ current increases excitabilityby decreasing the interspike interval and promoting burst firing.This process arises when inactivation of dendritic Na⁺ currentshifts the latency of the dendritic spike to delay the arrivalof the DAP sufficiently to increase its impact on somatic membranepotential, despite a reduction in dendritic excitability. Furthermore,the relationship between dendritic Na⁺ current density and somaticexcitability is non-monotonic, as intermediate levels of dendriticNa⁺ current exert the greatest excitatory influence. These resultsreveal that temporal shifts in dendritic spike firing providea novel means for backpropagating spikes to influence the finaloutput of a cell.

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