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This Article Full Text Full Text (PDF) All Versions of this Article: 574/1/209    most recent jphysiol.2006.108498v1 Services Email this article to a friend Similar articles in this journal Similar articles in PubMed Alert me to new issues of the journal Download to citation manager Citing Articles Citing Articles via HighWire Citing Articles via Google Scholar Google Scholar Articles by Pinault, D. Articles by Acsády, L. Search for Related Content PubMed PubMed Citation Articles by Pinault, D. Articles by Acsády, L. Related Collections Neuroscience

¹ INSERM U666, physiopathologie clinique et expérimentale de la schizophrénie, Faculté de Médecine, 11 rue Humann, F-67085 Strasbourg, France
² Institute of Experimental Medicine, Hungarian Academy of Sciences, Budapest, PO Box 67 H-1450, Hungary

Absence-related spike-and-wave discharges (SWDs) occur in the thalamocortical system during quiet wakefulness or drowsiness. In feline generalized penicillin epilepsy, SWDs develop from sleep spindles. In contrast, in genetic absence epilepsy rats from Strasbourg (GAERS), SWDs develop from wake-related 5–9 Hz oscillations, which are distinct from spindle oscillations (7–15 Hz). Since these two oscillation types share common frequency bands and may contribute to SWD genesis, it is important to compare their thalamic cellular mechanisms. Under neuroleptic analgesia, in GAERS and control non-epileptic rats barbiturates abolished both SWDs and 5–9 Hz oscillations but increased the incidence of spindle-like oscillations. Within the thalamocortical circuit 5–9 Hz oscillations occurred more coherently than spindle-like oscillations. Intracellular events associated with 5–9 Hz and spindle-like oscillations were distinctively different in both thalamic relay and reticular neurons. In both cell types, SWDs and 5–9 Hz oscillations emerged from a significantly more depolarized membrane potential than spindle-like oscillations. In relay neurons, 5–9 Hz oscillations were mainly characterized by a rhythmic depolarization, which occurred during a tonic hyperpolarization and which could trigger an apparent low-threshold Ca²⁺ potential, whereas spindle-like oscillations were characterized by a rhythmic hyperpolarization. In reticular cells, SWDs and 5–9 Hz oscillations occurred during a tonic hyperpolarization, whereas spindle-like oscillations occurred during a long-lasting depolarizing envelope. The difference in the intracellular events between 5–9 Hz and spindle-like oscillations and similarities between 5–9 Hz oscillations and SWDs indicate that in GAERS, 5–9 Hz oscillations are more pro-epileptogenic than spindle-like oscillations. In conclusion, the present study strongly supports the hypothesis that SWDs in GAERS are generated by a wake-related corticothalamic resonance, and not by sleep-related, hypersynchronous, spindle-like activity originating in the thalamus.

(Received 27 February 2006; accepted after revision 13 April 2006; first published online 20 April 2006)
Corresponding author D. Pinault: INSERM U666, Faculté de Médecine, 11, rue Humann, F-67085 Strasbourg Cedex, France. Email: pinault{at}neurochem.u-strasbg.fr

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