Effect of GABA on GnRH Neurons Switches from Depolarization to Hyperpolarization at Puberty in the Female Mouse

doi:10.1210/en.143.4.1459

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NEUROENDOCRINOLOGY

Effect of GABA on GnRH Neurons Switches from Depolarization to Hyperpolarization at Puberty in the Female Mouse

Seong-Kyu Han, Istvan M. Abraham and Allan E. Herbison

Laboratory of Neuroendocrinology, The Babraham Institute, Cambridge CB2 4AT, United Kingdom

Address all correspondence and requests for reprints to: Dr. Allan E. Herbison, Laboratory of Neuroendocrinology, The Babraham Institute, Cambridge CB2 4AT, United Kingdom. E-mail: . allan.herbison{at}bbsrc.ac.uk

The amino acid ${gamma}$ -aminobutyric acid (GABA) plays an importantrole in the regulation of the GnRH neurons. We examined whetherGABA depolarizes or hyperpolarizes GnRH neurons over postnataldevelopment using gramicidin, perforated-patch electrophysiologycombined with GnRH-LacZ transgenic mice in whom GnRH neuronscan be made to fluoresce. The basic membrane properties andGABA responsiveness of GnRH neurons were not altered by transgeneexpression or fluorescence. Ten of 12 immature GnRH neurons(10–17 d) were depolarized by GABA in a direct and dose-dependentmanner that was blocked by a GABA_A receptor antagonist. In peripubertalGnRH neurons (25–30 d), GABA exerted depolarizing (4/11)as well as hyperpolarizing (5/11) effects on GnRH neurons. Inadult female mice, GABA was found to exert exclusively hyperpolarizingactions on GnRH neurons (9/10) that were direct and mediatedby the GABA_A receptor. GABA switched from depolarizing to hyperpolarizingactions around postnatal d 31, the time of vaginal opening.Unidentified preoptic area neurons exhibited predominantly hyperpolarizingresponses to GABA at all three postnatal stages. These findingsdemonstrate that GnRH neurons display an unusually late postnatalswitch in their response to GABA. They also provide the firstdirect evidence that GABA inhibits the electrical activity ofpostpubertal GnRH neurons.

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