Abstract
Maintenance of energy balance requires regulation of the amount and timing of food intake. Decades of experiments utilizing pharmacological and later genetic manipulations have demonstrated the importance of serotonin signaling in this regulation. Much progress has been made in recent years in understanding how central nervous system (CNS) serotonin systems acting through a diverse array of serotonin receptors impact feeding behavior and metabolism. Particular attention has been paid to mechanisms through which serotonin impacts energy balance pathways within the hypothalamus. How upstream factors relevant to energy balance regulate the release of hypothalamic serotonin is less clear, but work addressing this issue is underway. Generally, investigation into the central serotonergic regulation of energy balance has had a predominantly “hypothalamocentric” focus, yet non-hypothalamic structures that have been implicated in energy balance regulation also receive serotonergic innervation and express multiple subtypes of serotonin receptors. Moreover, there is a growing appreciation of the diverse mechanisms through which peripheral serotonin impacts energy balance regulation. Clearly, the serotonergic regulation of energy balance is a field characterized by both rapid advances and by an extensive and diverse set of central and peripheral mechanisms yet to be delineated.
Highlights
Maintenance of energy balance requires regulation of the amount and timing of food intake
In conclusion, the extent to which central and peripheral serotonin signaling pervasively impact the regulation of energy balance is quite remarkable
The most extensively characterized of the serotonergic influences on energy balance pathways relates to the modulation of arcuate nucleus POMC and neuropeptide Y (NPY)/agouti-related peptide (AgRP) neuronal populations
Summary
Much progress has been made in recent years in understanding how central nervous system (CNS) serotonin systems acting through a diverse array of serotonin receptors impact feeding behavior and metabolism. There is a growing appreciation of the diverse mechanisms through which peripheral serotonin impacts energy balance regulation. The serotonergic regulation of energy balance is a field characterized by both rapid advances and by an extensive and diverse set of central and peripheral mechanisms yet to be delineated. The caudal raphe nuclei send predominantly descending projections to the brainstem and spinal cord, including to areas important for energy balance such as the nucleus of the solitary tract (NTS) and the parabrachial nuclei (PBN; Lam and Heisler, 2007). “Fen-Phen” was removed from the market in 1997 due to its promotion of cardiac valvulopathies, attributed to action at 5HT2B receptors www.frontiersin.org
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