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Adaptive Changes in the Central Control of Energy Homeostasis Occur in Response to Variations in Energy Status

Cassandra Gastelum, Lynnea Perez, Jennifer Hernandez, Nikki Le, Isabella Vahrson, Sarah Sayers, Edward J. Wagner

2021International Journal of Molecular Sciences28 citationsDOIOpen Access PDF

Abstract

dopamine pathway. Collectively, these systems convey and integrate information regarding nutrient status and the rewarding properties of ingested food, and formulate it into a behavioral response that attempts to balance fluctuations in consumption and food-seeking behavior. In this review we start with a functional overview of the homeostatic and hedonic energy balance circuitries; identifying the salient neural, hormonal and humoral components involved. We then delve into how the function of these circuits differs in males and females. Finally, we turn our attention to the ever-emerging roles of nociceptin/orphanin FQ (N/OFQ) and pituitary adenylate cyclase-activating polypeptide (PACAP)-two neuropeptides that have garnered increased recognition for their regulatory impact in energy homeostasis-to further probe how the imposed regulation of energy balance circuitry by these peptides is affected by sex and altered under positive (e.g., obesity) and negative (e.g., fasting) energy balance states. It is hoped that this work will impart a newfound appreciation for the intricate regulatory processes that govern energy homeostasis, as well as how recent insights into the N/OFQ and PACAP systems can be leveraged in the treatment of conditions ranging from obesity to anorexia.

Topics & Concepts

Adaptive responseHomeostasisEnergy homeostasisEnergy (signal processing)Energy metabolismBiologyEndocrinologyMathematicsStatisticsGeneticsObesityRegulation of Appetite and ObesityAdipose Tissue and MetabolismDiet, Metabolism, and Disease