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J Neurosci. 2006 Sep 6;26(36):9312-22.

Astrocytic glutamate is not necessary for the generation of epileptiform neuronal activity in hippocampal slices.

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1
Silvio Conte Center for Integration at the Tripartite Synapse, Department of Neuroscience, University of Pennsylvania School of Medicine, Philadelphia, Pennsylvania 19104, USA.

Abstract

The release of glutamate from astrocytes activates synchronous slow inward currents (SICs) in hippocampal pyramidal neurons, which are mediated by the NMDA receptor and represent a nonsynaptic mechanism to promote the synchronization of neuronal activity. Two recent studies demonstrate that SICs generate neuronal paroxysmal depolarizations resembling those typical of interictal epileptiform activity and proposed that there could be an astrocytic basis of epilepsy (Kang et al., 2005; Tian et al., 2005). We tested this hypothesis using two in vitro models of epileptiform activity in hippocampal slices. Removal of extracellular Mg2+ and application of picrotoxin or perfusion with 0.5 mM Mg2+ and 8.5 mM K+-containing saline result mainly in neuronal ictal- and interictal-like epileptiform activity, respectively. Although both models trigger epileptiform activity, astrocytic Ca2+ oscillations were increased only after slice perfusion with 0 mM Mg2+ and picrotoxin. The activation of astrocytic Ca2+ signaling correlates with an increased frequency of SICs, and, when paired neurons were within 100 microm of one another with synchronous neuronal Ca2+ elevations, the generation of synchronous neuronal depolarizations and action potential discharges. TTX blocked both ictal- and interictal-like epileptiform activity without affecting SICs or SIC-mediated neuronal synchronization. In contrast, NMDA receptor antagonists, which block SICs, did not prevent the generation of either ictal- or interictal-like events. Based on this clear-cut pharmacology, our data demonstrate that nonsynaptic glutamate release from astrocytes is not necessary for the generation of epileptiform activity in vitro, although we cannot exclude the possibility that it may modulate the strength of the ictal (seizure)-like event.

PMID:
16957087
DOI:
10.1523/JNEUROSCI.2836-06.2006
[Indexed for MEDLINE]
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