Kisspeptin neuron electrophysiology: Intrinsic properties, hormonal modulation, and regulation of homeostatic circuits

•Kisspeptin neurons drive gonadotropin-releasing hormone neuron activity.•Gonadal steroid feedback regulates kisspeptin neuron electrophysiological properties.•Neuronal circuits relay internal and external cues to kisspeptin neurons.•Kisspeptin neurons contribute to neuronal circuits regulating home...

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Veröffentlicht in:	Frontiers in neuroendocrinology 2022-07, Vol.66, p.101006-101006, Article 101006
Hauptverfasser:	Jamieson, Bradley B., Piet, Richard
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Sprache:	eng
Schlagworte:	Action potentials Fertility Gonadotropin-releasing hormone neurons Hypothalamic-pituitary–gonadal axis Ion channels Neural circuits Optogenetics Patch-clamp Reproduction Synaptic transmission
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description	•Kisspeptin neurons drive gonadotropin-releasing hormone neuron activity.•Gonadal steroid feedback regulates kisspeptin neuron electrophysiological properties.•Neuronal circuits relay internal and external cues to kisspeptin neurons.•Kisspeptin neurons contribute to neuronal circuits regulating homeostatic functions. The obligatory role of kisspeptin (KISS1) and its receptor (KISS1R) in regulating the hypothalamic-pituitary–gonadal axis, puberty and fertility was uncovered in 2003. In the few years that followed, an impressive body of work undertaken in many species established that neurons producing kisspeptin orchestrate gonadotropin-releasing hormone (GnRH) neuron activity and subsequent GnRH and gonadotropin hormone secretory patterns, through kisspeptin-KISS1R signaling, and mediate many aspects of gonadal steroid hormone feedback regulation of GnRH neurons. Here, we review knowledge accrued over the past decade, mainly in genetically modified mouse models, of the electrophysiological properties of kisspeptin neurons and their regulation by hormonal feedback. We also discuss recent progress in our understanding of the role of these cells within neuronal circuits that control GnRH neuron activity and GnRH secretion, energy balance and, potentially, other homeostatic and reproductive functions.
doi_str_mv	10.1016/j.yfrne.2022.101006
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subjects	Action potentials Fertility Gonadotropin-releasing hormone neurons Hypothalamic-pituitary–gonadal axis Ion channels Neural circuits Optogenetics Patch-clamp Reproduction Synaptic transmission
title	Kisspeptin neuron electrophysiology: Intrinsic properties, hormonal modulation, and regulation of homeostatic circuits
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