Food Intake Recruits Orosensory and Post-ingestive Dopaminergic Circuits to Affect Eating Desire in Humans

Sharmili Edwin Thanarajah; Heiko Backes; Alexandra G. DiFeliceantonio; Kerstin Albus; Anna Lena Cremer; Ruth Hanssen; Rachel N. Lippert; Oliver A. Cornely; Dana M. Small; Jens C. Brüning; Marc Tittgemeyer

doi:10.1016/j.cmet.2018.12.006

Food Intake Recruits Orosensory and Post-ingestive Dopaminergic Circuits to Affect Eating Desire in Humans

Sharmili Edwin Thanarajah, Heiko Backes, Alexandra G. DiFeliceantonio, Kerstin Albus, Anna Lena Cremer, Ruth Hanssen, Rachel N. Lippert, Oliver A. Cornely, Dana M. Small, Jens C. Brüning, Marc Tittgemeyer

Research output: Contribution to journal › Article › peer-review

74 Scopus citations

Abstract

Pleasant taste and nutritional value guide food selection behavior. Here, orosensory features of food may be secondary to its nutritional value in underlying reinforcement, but it is unclear how the brain encodes the reward value of food. Orosensory and peripheral physiological signals may act together on dopaminergic circuits to drive food intake. We combined fMRI and a novel [11C]raclopride PET method to assess systems-level activation and dopamine release in response to palatable food intake in humans. We identified immediate orosensory and delayed post-ingestive dopamine release. Both responses recruit segregated brain regions: specialized integrative pathways and higher cognitive centers. Furthermore, we identified brain areas where dopamine release reflected the subjective desire to eat. Immediate dopamine release in these wanting-related regions was inversely correlated with, and presumably inhibited, post-ingestive release in the dorsal striatum. Our results highlight the role of brain and periphery in interacting to reinforce food intake in humans.

Original language	English
Pages (from-to)	695-706.e4
Journal	Cell Metabolism
Volume	29
Issue number	3
DOIs	https://doi.org/10.1016/j.cmet.2018.12.006
State	Published - 5 Mar 2019

Keywords

dopamine release
food reward
gut-brain axis
human brain
positron emission tomography
post-ingestive signaling
wanting

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10.1016/j.cmet.2018.12.006

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title = "Food Intake Recruits Orosensory and Post-ingestive Dopaminergic Circuits to Affect Eating Desire in Humans",

abstract = "Pleasant taste and nutritional value guide food selection behavior. Here, orosensory features of food may be secondary to its nutritional value in underlying reinforcement, but it is unclear how the brain encodes the reward value of food. Orosensory and peripheral physiological signals may act together on dopaminergic circuits to drive food intake. We combined fMRI and a novel [11C]raclopride PET method to assess systems-level activation and dopamine release in response to palatable food intake in humans. We identified immediate orosensory and delayed post-ingestive dopamine release. Both responses recruit segregated brain regions: specialized integrative pathways and higher cognitive centers. Furthermore, we identified brain areas where dopamine release reflected the subjective desire to eat. Immediate dopamine release in these wanting-related regions was inversely correlated with, and presumably inhibited, post-ingestive release in the dorsal striatum. Our results highlight the role of brain and periphery in interacting to reinforce food intake in humans.",

keywords = "dopamine release, food reward, gut-brain axis, human brain, positron emission tomography, post-ingestive signaling, wanting",

author = "Thanarajah, {Sharmili Edwin} and Heiko Backes and DiFeliceantonio, {Alexandra G.} and Kerstin Albus and Cremer, {Anna Lena} and Ruth Hanssen and Lippert, {Rachel N.} and Cornely, {Oliver A.} and Small, {Dana M.} and Br{\"u}ning, {Jens C.} and Marc Tittgemeyer",

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doi = "10.1016/j.cmet.2018.12.006",

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AU - Thanarajah, Sharmili Edwin

AU - Backes, Heiko

AU - DiFeliceantonio, Alexandra G.

AU - Albus, Kerstin

AU - Cremer, Anna Lena

AU - Hanssen, Ruth

AU - Lippert, Rachel N.

AU - Cornely, Oliver A.

AU - Small, Dana M.

AU - Brüning, Jens C.

AU - Tittgemeyer, Marc

PY - 2019/3/5

Y1 - 2019/3/5

N2 - Pleasant taste and nutritional value guide food selection behavior. Here, orosensory features of food may be secondary to its nutritional value in underlying reinforcement, but it is unclear how the brain encodes the reward value of food. Orosensory and peripheral physiological signals may act together on dopaminergic circuits to drive food intake. We combined fMRI and a novel [11C]raclopride PET method to assess systems-level activation and dopamine release in response to palatable food intake in humans. We identified immediate orosensory and delayed post-ingestive dopamine release. Both responses recruit segregated brain regions: specialized integrative pathways and higher cognitive centers. Furthermore, we identified brain areas where dopamine release reflected the subjective desire to eat. Immediate dopamine release in these wanting-related regions was inversely correlated with, and presumably inhibited, post-ingestive release in the dorsal striatum. Our results highlight the role of brain and periphery in interacting to reinforce food intake in humans.

AB - Pleasant taste and nutritional value guide food selection behavior. Here, orosensory features of food may be secondary to its nutritional value in underlying reinforcement, but it is unclear how the brain encodes the reward value of food. Orosensory and peripheral physiological signals may act together on dopaminergic circuits to drive food intake. We combined fMRI and a novel [11C]raclopride PET method to assess systems-level activation and dopamine release in response to palatable food intake in humans. We identified immediate orosensory and delayed post-ingestive dopamine release. Both responses recruit segregated brain regions: specialized integrative pathways and higher cognitive centers. Furthermore, we identified brain areas where dopamine release reflected the subjective desire to eat. Immediate dopamine release in these wanting-related regions was inversely correlated with, and presumably inhibited, post-ingestive release in the dorsal striatum. Our results highlight the role of brain and periphery in interacting to reinforce food intake in humans.

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Food Intake Recruits Orosensory and Post-ingestive Dopaminergic Circuits to Affect Eating Desire in Humans

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Keywords

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