Benzodiazepine modulation of GABAA receptor opening frequency depends on activation context: A patch clamp and simulation study

Summary Benzodiazepines (BDZs) are GABAA receptor modulators with anxiolytic, hypnotic, and anticonvulsant properties. BDZs are understood to potentiate GABAA receptor function by increasing channel opening frequency, in contrast to barbiturates, which increase channel open duration. However, the in...

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Veröffentlicht in:Epilepsy research 2009-08, Vol.85 (2), p.212-220
Hauptverfasser: Bianchi, Matt T, Botzolakis, Emmanuel J, Lagrange, Andre H, Macdonald, Robert L
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Sprache:eng
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Zusammenfassung:Summary Benzodiazepines (BDZs) are GABAA receptor modulators with anxiolytic, hypnotic, and anticonvulsant properties. BDZs are understood to potentiate GABAA receptor function by increasing channel opening frequency, in contrast to barbiturates, which increase channel open duration. However, the in vitro evidence demonstrating increased opening frequency involved prolonged exposure to sub-saturating GABA concentrations, conditions most similar to those found in extrasynaptic areas. In contrast, synaptic GABAA receptors are transiently activated by high GABA concentrations. To determine if BDZ modulation of single-channel opening frequency would be different for BDZ-sensitive receptors activated under synaptic versus extrasynaptic conditions, a combination of patch clamp recording and kinetic modeling was used. Consistent with the original experimental findings, BDZs were found to increase receptor affinity for GABA by decreasing the unbinding rate. While this mechanism was predicted to increase opening frequency under extrasynaptic conditions, simulations predicted that the same mechanism under synaptic conditions would increase the number, but not the frequency, of single-channel openings. Thus, a single mechanism (slower GABA unbinding) can produce differential changes in opening frequency under synaptic versus extrasynaptic conditions. The functional impact of BDZs on GABAA receptors therefore depends upon the physiological context of receptor activation.
ISSN:0920-1211
1872-6844
DOI:10.1016/j.eplepsyres.2009.03.007