Kisspeptin Increases gamma-Aminobutyric Acidergic and Glutamatergic Transmission Directly to Gonadotropin-Releasing Hormone Neurons in an Estradiol-Dependent Manner

GnRH neurons are the final central pathway controlling fertility. Kisspeptin potently activates GnRH release via G protein-coupled receptor 54 (GPR54). GnRH neurons express GPR54, and kisspeptin can act directly; however, GPR54 is broadly expressed, suggesting indirect actions are possible. Transsynaptic mechanisms are involved in estradiol-induced potentiation of GnRH neuron response to kisspeptin. To investigate these mechanisms, separate whole-cell voltage-clamp recordings were performed of gamma-aminobutyric acid (GABA)-ergic and glutamatergic transmission to GnRH neurons in brain slices before and during kisspeptin treatment. To determine whether estradiol alters the effect of kisspeptin on synaptic transmission, mice were ovariectomized and either left with no further treatment (OVX) or treated with estradiol implants (OVX+E). Cells were first studied in the morning when estradiol exerts negative feedback. Kisspeptin increased frequency and amplitude of GABAergic postsynaptic currents (PSCs) in GnRH neurons from OVX+E mice. Blocking action potentials eliminated the effect on frequency, indicating presynaptic actions. Amplitude changes were due to postsynaptic actions. Kisspeptin also increased frequency of glutamatergic excitatory PSCs in cells from OVX+E animals. Kisspeptin did not affect either GABAergic or glutamatergic transmission to GnRH neurons in cells from OVX mice, indicating effects on transmission are estradiol dependent. In contrast to stimulatory effects on GABAergic PSC frequency during negative feedback, kisspeptin had no effect during positive feedback. These data suggest estradiol enables kisspeptin-mediated increases in GABA and glutamate transmission to GnRH neurons. Furthermore, the occlusion of the response during positive feedback implies one consequence of estradiol positive feedback is an increase in transmission to GnRH neurons mediated by endogenous kisspeptin. (Endocrinology 151: 291-300, 2010)