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The Journal of Neuroscience, April 15, 2000, 20(8):2904-2916

Blockade of Neuronal Activity During Hippocampal Development Produces a Chronic Focal Epilepsy in the Rat

Cynthia D. Galvan^{1, 2}, Richard A. Hrachovy^{4, 5}, Karen L. Smith^{1, 3}, and John W. Swann^{1, 2, 3}

¹ The Cain Foundation Laboratories, ² Division of Neuroscience, ³ Department of Pediatrics, and ⁴ Department of Neurology, Baylor College of Medicine, and ⁵ Veterans Administrative Medical Center, Houston, Texas 77030

During brain development, neuronal activity can transform neurons characterized by widely ranging axonal projections to ones with more restricted patterns of synaptic connectivity. Previous studies have shown that an exuberant outgrowth of local recurrent excitatory axons occurs in hippocampal area CA3 during postnatal weeks 2 and 3. Axons are remodeled with maturation, and nearly half of the branches are eliminated. Postnatal weeks 2 and 3 also coincide with a "critical" period of development, when CA3 networks have a marked propensity to generate electrographic seizures. In an attempt to prevent axonal remodeling, local circuit activity was blocked unilaterally in dorsal hippocampus by continuous infusion of tetrodotoxin (TTX). Field potential recordings from behaving animals were dramatically altered when TTX infusion was initiated at the beginning of the critical period, week 2, but not later in life. Spontaneous, synchronized spikes and electrographic seizures with behavioral accompaniments were observed after 4 weeks of TTX infusion and persisted into adulthood. When recordings were made during TTX infusion, synchronized spiking was recorded in ventral hippocampus as early as 2 weeks after infusate introduction. At this same time, extracellular field recordings from in vitro slices demonstrated spontaneous network-driven "mini-bursts" arising from ventral hippocampal slices. These were abolished by glutamate receptor antagonists. Whole-cell recordings from CA3 neurons revealed bursts of excitatory synaptic potentials coincident with the network bursts recorded extracellularly. Thus, local assemblies of mutually excitatory CA3 pyramidal cells are hyperexcitable in these rats. Whether alterations in developmental axonal remodeling mediate these effects awaits further studies.

Key words: hippocampus; epilepsy; TTX; axons; EEG; pyramidal cells

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Copyright © 2000 Society for Neuroscience  0270-6474/00/2082904-13$05.00/0

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