Action potential fidelity during normal and epileptiform activity in paired soma/axon recordings from rat hippocampus

doi:10.1113/jphysiol.2005.089086

Action potential fidelity during normal and epileptiform activity in paired soma/axon recordings from rat hippocampus

Julian P Meeks¹, Xiaoping Jiang¹, and Steven Mennerick¹^*

¹ Washington University School of Medicine

^* To whom correspondence should be addressed. E-mail: menneris{at}psychiatry.wustl.edu.

Although action potential initiation and propagation are fundamentalto nervous system function, there are few direct electrophysiologicalobservations of propagating action potentials in small unmyelinatedfibers, such as the axons within mammalian hippocampus. Tocircumvent limitations of previous studies that relied on extracellularstimulation, we performed dual recordings: whole-cell recordingsfrom hippocampal CA3 pyramidal cell somas and extracellularrecordings from their axons, up to 800 µm away. Duringbrief spike trains under normal conditions, axonal spikes weremore resistant to amplitude reduction than somatic spikes. Axonal amplitude depression was greatest at the axon initialsegment < 150 µm from the soma, and initiation occurred~75 µm from the soma. Although prior studies, which failedto verify spike initiation, suggested substantial axonal depressionduring seizure-associated extracellular K⁺ ([K⁺]_o) rises, wefound that 8 mM [K⁺]_o caused relatively small decreases in axonalspike amplitude during brief spike trains. However, duringsustained, epileptiform spiking induced in 8 mM [K⁺]_o, axonalwaveforms depressed significantly in peak amplitude. Duringepileptiform spiking, bursts of two or more action potentials>20 Hz failed to propagate in most cases. In normal [K⁺]_oat 25° and 32° C, spiking superimposed on sustainedsomatic depolarization, but not spiking alone, produced similaraxonal changes as the epileptiform activity. These resultshighlight the likely importance of steady-state inactivationof axonal channels in maintaining action potential fidelity. Such changes in axonal propagation properties could encodeinformation and/or serve as an endogenous brake on seizure propagation.

Key words: Action potential • Axon • Epilepsy

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