Extracellular Chloride and the Maintenance of Spontaneous Epileptiform Activity in Rat Hippocampal Slices

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Extracellular Chloride and the Maintenance of Spontaneous Epileptiform Activity in Rat Hippocampal Slices

Daryl W. Hochman¹, Raimondo D'Ambrosio¹, Damir Janigro¹, and Philip A. Schwartzkroin¹^,²

¹ Department of Neurological Surgery; and ² Department of Physiology and Biophysics, University of Washington, Seattle, Washington 98195

Hochman, Daryl W., Raimondo D'Ambrosio, Damir Janigro, and Philip A. Schwartzkroin. Extracellular chloride and themaintenance of spontaneous epileptiform activity in rat hippocampalslices. J. Neurophysiol. 81: 49-59, 1999. Previous studies showedthat furosemide blocks spontaneous epileptiform activity withoutdiminishing synaptic transmission or reducing hyperexcited fieldresponses to electrical stimuli. We now test the hypothesis thatthe antiepileptic effects of furosemide are mediated through itsblockade of the Na⁺,K⁺,2Cl cotransporter and thus should be mimicked by a reduction of extracellularchloride ([Cl]_o). In the first set of experiments, field recordings from theCA1 cell body layer of hippocampal slices showed that spontaneousbursting developed within 10-20 min in slices perfused with low-[Cl]_o (7 mM) medium but that this spontaneous epileptiform activityceased after a further 10-20 min. Intracellular recordings fromCA1 pyramidal cells showed that normal action potential dischargecould be elicited by membrane depolarization, even after the tissuewas perfused with low-[Cl]_o medium for >2 h. In a second set of experiments, spontaneousbursting activity was induced in slices by perfusion with high-[K⁺]_o (10 mM), bicuculline (100 µM), or 4-aminopyridine (100 µM).In each case, recordings from the CA1 region showed that reductionof [Cl]_o to 21 mM reversibly blocked the bursting within 1 h. Similarto previous observations with furosemide treatment, low-[Cl]_o medium blocked spontaneous hypersynchronous discharges withoutreducing synaptic hyperexcitability (i.e., hyperexcitable fieldresponses evoked by electrical stimulation). In a third set ofexperiments, prolonged exposure (>1 h after spontaneous burstingceased) of slices to systematically varied [Cl]_o and [K⁺]_o resulted in one of three types of events: 1) spontaneous, long-lasting,and repetitive negative field potential shifts (7 mM [Cl]_o; 3 mM [K⁺]_o); 2) oscillations consisting of 5- to 10-mV negative shiftsin the field potential, with a period of ~1 cycle/40 s (16 mM[Cl]_o; 12 mM [K⁺]_o); and 3) shorter, infrequently occurring negative field shiftslasting 20-40 s (21 mM [Cl]_o; 3 mM [K⁺]_o). Our observations indicate that the effects of low [Cl]_o on neuronal synchronization and spontaneous discharge are timedependent. Similar effects were seen with furosemide and low [Cl]_o, consistent with the hypothesis that the antiepileptic effectof furosemide is mediated by the drug's effect on chloride transporters.Finally, the results of altering extracellular potassium alongwith chloride suggest that blockade of the Na⁺, K⁺,2Cl cotransporter, which normally transports chloride from the extracellularspace into glial cells, is key to these antiepileptic effects.

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