M. Elizabeth Deel scite author profile

Background: Heterozygous GABRA1 deletion causes absence epilepsy. Results: The deletion modestly decreased cortical GABA A receptor number but also reduced the rate of receptor endocytosis and thus partially compensated for the deletion by increasing the expression of different receptor isoforms. Conclusion: Heterozygous GABRA1 deletion caused novel alterations in cortical GABA A receptor expression and physiology. Significance: These findings reveal mechanisms of cortical disinhibition in absence epilepsy.

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Tonic glutamate in CA1 of aging rats correlates with phasic glutamate dysregulation during seizure

Stephens

Williamson

Deel

et al. 2014

Epilepsia

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SUMMARYObjective: Characterize glutamate neurotransmission in the hippocampus of awakebehaving rodents during focal seizures in a model of aging. Methods: We used enzyme-based ceramic microelectrode array technology to measure in vivo extracellular tonic glutamate levels and real-time phasic glutamate release and clearance events in the hippocampus of awake Fischer 344 rats. Local application of 4-aminopyridine (4-AP) into the CA1 region was used to induce focal motor seizures in different animal age groups representing young, late-middle aged and elderly humans. Results: Rats with the highest preseizure tonic glutamate levels (all in late-middle aged or elderly groups) experienced the most persistent 4-AP-induced focal seizure motor activity (wet dog shakes) and greatest degree of acute seizure-associated disruption of glutamate neurotransmission measured as rapid transient changes in extracellular glutamate levels. Significance: Increased seizure susceptibility was demonstrated in the rats with the highest baseline hippocampal extracellular glutamate levels, all of which were latemiddle aged or aged animals. The manifestation of seizures behaviorally was associated with dynamic changes in glutamate neurotransmission. To our knowledge, this is the first report of a relationship between seizure susceptibility and alterations in both baseline tonic and phasic glutamate neurotransmission.

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Altered intrathalamic GABAA neurotransmission in a mouse model of a human genetic absence epilepsy syndrome

Zhou

Ding

Deel

et al. 2015

Neurobiology of Disease

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We previously demonstrated that heterozygous deletion of Gabra1, the mouse homolog of the human absence epilepsy gene that encodes the GABAA receptor (GABAAR) α1 subunit, causes absence seizures. We showed that cortex partially compensates for this deletion by increasing the cell surface expression of residual α1 subunit and by increasing α3 subunit expression. Absence seizures also involve two thalamic nuclei: the ventrobasal (VB) nucleus, which expresses only the α1 and α4 subtypes of GABAAR α subunits, and the reticular (nRT) nucleus, which expresses only the α3 subunit subtype. Here, we found that, unlike cortex, VB exhibited significantly reduced total and synaptic α1 subunit expression. In addition, heterozygous α1 subunit deletion substantially reduced miniature inhibitory postsynaptic current (mIPSC) peak amplitudes and frequency in VB. However, there was no change in expression of the extrasynaptic α4 or δ subunits in VB and, unlike other models of absence epilepsy, no change in tonic GABAAR currents. Although heterozygous α1 subunit knockout increased α3 subunit expression in medial thalamic nuclei, it did not alter α3 subunit expression in nRT. However, it did enlarge the presynaptic vesicular inhibitory amino acid transporter puncta and lengthen the time constant of mIPSC decay in nRT. We conclude that increased tonic GABAA currents are not necessary for absence seizures. In addition, heterozygous loss of α1 subunit disinhibits VB by substantially reducing phasic GABAergic currents and surprisingly, it also increases nRT inhibition by prolonging phasic currents. The increased inhibition in nRT likely represents a partial compensation that helps reduce absence seizures.

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M. Elizabeth Deel

Altered Cortical GABAA Receptor Composition, Physiology, and Endocytosis in a Mouse Model of a Human Genetic Absence Epilepsy Syndrome

Tonic glutamate in CA1 of aging rats correlates with phasic glutamate dysregulation during seizure

Altered intrathalamic GABAA neurotransmission in a mouse model of a human genetic absence epilepsy syndrome

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