Differential pharmacological properties of GABAA receptors in axon terminals and soma of dentate gyrus granule cells

Jin Wuk Han, Michiko Nakamura, In Sun Choi, Jin Hwa Cho, Hye Mi Park, Maan Gee Lee, Byung Ju Choi, Hyun Jung Jang, Il Sung Jang

Research output: Contribution to journalArticlepeer-review

12 Scopus citations

Abstract

Although it has been well established that GABAA receptors are molecular targets of a variety of allosteric modulators, such as benzodiazepines, the pharmacological properties of presynaptic GABAA receptors are poorly understood. In this study, the effects of diazepam and Zn2+ on presynaptic GABAA receptors have been investigated by measuring the GABAA receptor-mediated facilitation of spontaneous glutamate release in mechanically dissociated rat CA3 pyramidal neurons. Diazepam significantly enhanced the muscimol-induced facilitation (particularly at submicromolar concentrations) of spontaneous glutamate release and shifted the concentration-response relationship for muscimol toward the left, whereas Zn2+ (≤ 100 μM) had little effect on the muscimol-induced facilitation of spontaneous glutamate release. In contrast, Zn2+ significantly suppressed the muscimol-induced currents mediated by GABA A receptors expressed on dentate gyrus granule cells, which are parent neurons of mossy fibers, whereas the effect of diazepam on GABA A receptors expressed on dentate gyrus granule cells was lesser than that on presynaptic GABAA receptors. The results suggest that the pharmacological properties of GABAA receptors differ considerably between presynaptic (axon terminals) and somatic regions in the same granule cell and that presynaptic GABAA receptors should be considered as one of the important pharmacological targets of many drugs affecting GABA A receptors.

Original languageEnglish
Pages (from-to)995-1007
Number of pages13
JournalJournal of Neurochemistry
Volume109
Issue number4
DOIs
StatePublished - May 2009

Keywords

  • Benzodiazepines
  • CA3 neurons
  • Mossy fiber terminals
  • Pharmacology
  • Presynaptic GABA receptors
  • Spontaneous excitatory postsynaptic currents
  • Zinc

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