Single-Column Thalamocortical Network Model Exhibiting Gamma Oscillations, Sleep Spindles, and Epileptogenic Bursts

doi:10.1152/jn.00983.2004

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Single-Column Thalamocortical Network Model Exhibiting Gamma Oscillations, Sleep Spindles, and Epileptogenic Bursts

Roger D. Traub¹, Diego Contreras², Mark O. Cunningham³, Hilary Murray³, Fiona E. N. LeBeau³, Anita Roopun³, Andrea Bibbig¹, W. Bryan Wilent², Michael J. Higley² and Miles A. Whittington³

¹Departments of Physiology and Pharmacology, and Neurology, State University of New York, Downstate Medical Center, Brooklyn, New York; ²Department of Neuroscience, University of Pennsylvania School of Medicine, Philadelphia, Pennsylvania; and ³School of Biomedical Sciences, University of Leeds, Leeds, United Kingdom

Submitted 20 September 2004; accepted in final form 3 November 2004

To better understand population phenomena in thalamocorticalneuronal ensembles, we have constructed a preliminary networkmodel with 3,560 multicompartment neurons (containing soma,branching dendrites, and a portion of axon). Types of neuronsincluded superficial pyramids (with regular spiking [RS] andfast rhythmic bursting [FRB] firing behaviors); RS spiny stellates;fast spiking (FS) interneurons, with basket-type and axoaxonictypes of connectivity, and located in superficial and deep corticallayers; low threshold spiking (LTS) interneurons, which contactedprincipal cell dendrites; deep pyramids, which could have RSor intrinsic bursting (IB) firing behaviors, and endowed eitherwith nontufted apical dendrites or with long tufted apical dendrites;thalamocortical relay (TCR) cells; and nucleus reticularis (nRT)cells. To the extent possible, both electrophysiology and synapticconnectivity were based on published data, although many arbitrarychoices were necessary. In addition to synaptic connectivity(by AMPA/kainate, NMDA, and GABA_A receptors), we also includedelectrical coupling between dendrites of interneurons, nRT cells,and TCR cells, and—in various combinations—electricalcoupling between the proximal axons of certain cortical principalneurons. Our network model replicates several observed populationphenomena, including 1) persistent gamma oscillations; 2) thalamocorticalsleep spindles; 3) series of synchronized population bursts,resembling electrographic seizures; 4) isolated double populationbursts with superimposed very fast oscillations (>100 Hz,"VFO"); 5) spike-wave, polyspike-wave, and fast runs (about10 Hz). We show that epileptiform bursts, including double andmultiple bursts, containing VFO occur in rat auditory cortexin vitro, in the presence of kainate, when both GABA_A and GABA_Breceptors are blocked. Electrical coupling between axons appearsnecessary (as reported previously) for persistent gamma andadditionally plays a role in the detailed shaping of epileptogenicevents. The degree of recurrent synaptic excitation betweenspiny stellate cells, and their tendency to fire throughoutmultiple bursts, also appears critical in shaping epileptogenicevents.

Address for reprint requests and other correspondence: R. D. Traub at Departments of Physiology and Pharmacology, and Neurology, State University of New York, Downstate Medical Center, 450 Clarkson Ave., Box 31, Brooklyn, NY 11203 (E-mail: roger.traub{at}downstate.edu)

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