Kisspeptin and energy balance in reproduction

Kisspeptin and energy balance in reproduction

Kisspeptin is vital for the neuroendocrine regulation of GNRH secretion. Kisspeptin neurons are now recognized as a central pathway responsible for conveying key homeostatic information to GNRH neurons. This pathway is likely to mediate the well-established link between energy balance and reproducti...

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Bibliographic Details
Published in:Reproduction (Cambridge, England) Vol. 147; no. 3; pp. R53 - R63
Main Authors: De Bond, Julie-Ann P, Smith, Jeremy T
Format: Journal Article
Language:English
Published: England Bioscientifica Ltd 01-03-2014
Subjects:
Animals
Energy Metabolism - genetics
Fertility - genetics
Homeostasis - genetics
Humans
Kisspeptins - physiology
Mice
Puberty - genetics
Puberty - metabolism
Reproduction - genetics
Review
Sexual Maturation - genetics
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Summary:Kisspeptin is vital for the neuroendocrine regulation of GNRH secretion. Kisspeptin neurons are now recognized as a central pathway responsible for conveying key homeostatic information to GNRH neurons. This pathway is likely to mediate the well-established link between energy balance and reproductive function. Thus, in states of severely altered energy balance (either negative or positive), fertility is compromised, as is Kiss1 expression in the arcuate nucleus. A number of metabolic modulators have been proposed as regulators of kisspeptin neurons including leptin, ghrelin, pro-opiomelanocortin (POMC), and neuropeptide Y (NPY). Whether these regulate kisspeptin neurons directly or indirectly will be discussed. Moreover, whether the stimulatory role of leptin on reproduction is mediated by kisspeptin directly will be questioned. Furthermore, in addition to being expressed in GNRH neurons, the kisspeptin receptor (Kiss1r) is also expressed in other areas of the brain, as well as in the periphery, suggesting alternative roles for kisspeptin signaling outside of reproduction. Interestingly, kisspeptin neurons are anatomically linked to, and can directly excite, anorexigenic POMC neurons and indirectly inhibit orexigenic NPY neurons. Thus, kisspeptin may have a direct role in regulating energy balance. Although data from Kiss1r knockout and WT mice found no differences in body weight, recent data indicate that kisspeptin may still play a role in food intake and glucose homeostasis. Thus, in addition to regulating reproduction, and mediating the effect of energy balance on reproductive function, kisspeptin signaling may also be a direct regulator of metabolism.
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ISSN:1470-1626
1741-7899
DOI:10.1530/REP-13-0509