Dopamine modulates the reward experiences elicited by music
Understanding how the brain translates a structured sequence of sounds, such as music, into a pleasant and rewarding experience is a fascinating question which may be crucial to better understand the processing of abstract rewards in humans. Previous neuroimaging findings point to a challenging role...
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| Published in | Proceedings of the National Academy of Sciences - PNAS Vol. 116; no. 9; pp. 3793 - 3798 |
|---|---|
| Main Authors | , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
National Academy of Sciences
26.02.2019
|
| Series | From the Cover |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0027-8424 1091-6490 1091-6490 |
| DOI | 10.1073/pnas.1811878116 |
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| Abstract | Understanding how the brain translates a structured sequence of sounds, such as music, into a pleasant and rewarding experience is a fascinating question which may be crucial to better understand the processing of abstract rewards in humans. Previous neuroimaging findings point to a challenging role of the dopaminergic system in music-evoked pleasure. However, there is a lack of direct evidence showing that dopamine function is causally related to the pleasure we experience from music. We addressed this problem through a double blind within-subject pharmacological design in which we directly manipulated dopaminergic synaptic availability while healthy participants (n = 27) were engaged in music listening. We orally administrated to each participant a dopamine precursor (levodopa), a dopamine antagonist (risperidone), and a placebo (lactose) in three different sessions. We demonstrate that levodopa and risperidone led to opposite effects in measures of musical pleasure and motivation: while the dopamine precursor levodopa, compared with placebo, increased the hedonic experience and music-related motivational responses, risperidone led to a reduction of both. This study shows a causal role of dopamine in musical pleasure and indicates that dopaminergic transmission might play different or additive roles than the ones postulated in affective processing so far, particularly in abstract cognitive activities. |
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| AbstractList | In everyday life humans regularly seek participation in highly complex and pleasurable experiences such as music listening, singing, or playing, that do not seem to have any specific survival advantage. The question addressed here is to what extent dopaminergic transmission plays a direct role in the reward experience (both motivational and hedonic) induced by music. We report that pharmacological manipulation of dopamine modulates musical responses in both positive and negative directions, thus showing that dopamine causally mediates musical reward experience.
Understanding how the brain translates a structured sequence of sounds, such as music, into a pleasant and rewarding experience is a fascinating question which may be crucial to better understand the processing of abstract rewards in humans. Previous neuroimaging findings point to a challenging role of the dopaminergic system in music-evoked pleasure. However, there is a lack of direct evidence showing that dopamine function is causally related to the pleasure we experience from music. We addressed this problem through a double blind within-subject pharmacological design in which we directly manipulated dopaminergic synaptic availability while healthy participants (
n
= 27) were engaged in music listening. We orally administrated to each participant a dopamine precursor (levodopa), a dopamine antagonist (risperidone), and a placebo (lactose) in three different sessions. We demonstrate that levodopa and risperidone led to opposite effects in measures of musical pleasure and motivation: while the dopamine precursor levodopa, compared with placebo, increased the hedonic experience and music-related motivational responses, risperidone led to a reduction of both. This study shows a causal role of dopamine in musical pleasure and indicates that dopaminergic transmission might play different or additive roles than the ones postulated in affective processing so far, particularly in abstract cognitive activities. Understanding how the brain translates a structured sequence of sounds, such as music, into a pleasant and rewarding experience is a fascinating question which may be crucial to better understand the processing of abstract rewards in humans. Previous neuroimaging findings point to a challenging role of the dopaminergic system in music-evoked pleasure. However, there is a lack of direct evidence showing that dopamine function is causally related to the pleasure we experience from music. We addressed this problem through a double blind within-subject pharmacological design in which we directly manipulated dopaminergic synaptic availability while healthy participants (n = 27) were engaged in music listening. We orally administrated to each participant a dopamine precursor (levodopa), a dopamine antagonist (risperidone), and a placebo (lactose) in three different sessions. We demonstrate that levodopa and risperidone led to opposite effects in measures of musical pleasure and motivation: while the dopamine precursor levodopa, compared with placebo, increased the hedonic experience and music-related motivational responses, risperidone led to a reduction of both. This study shows a causal role of dopamine in musical pleasure and indicates that dopaminergic transmission might play different or additive roles than the ones postulated in affective processing so far, particularly in abstract cognitive activities.Understanding how the brain translates a structured sequence of sounds, such as music, into a pleasant and rewarding experience is a fascinating question which may be crucial to better understand the processing of abstract rewards in humans. Previous neuroimaging findings point to a challenging role of the dopaminergic system in music-evoked pleasure. However, there is a lack of direct evidence showing that dopamine function is causally related to the pleasure we experience from music. We addressed this problem through a double blind within-subject pharmacological design in which we directly manipulated dopaminergic synaptic availability while healthy participants (n = 27) were engaged in music listening. We orally administrated to each participant a dopamine precursor (levodopa), a dopamine antagonist (risperidone), and a placebo (lactose) in three different sessions. We demonstrate that levodopa and risperidone led to opposite effects in measures of musical pleasure and motivation: while the dopamine precursor levodopa, compared with placebo, increased the hedonic experience and music-related motivational responses, risperidone led to a reduction of both. This study shows a causal role of dopamine in musical pleasure and indicates that dopaminergic transmission might play different or additive roles than the ones postulated in affective processing so far, particularly in abstract cognitive activities. Understanding how the brain translates a structured sequence of sounds, such as music, into a pleasant and rewarding experience is a fascinating question which may be crucial to better understand the processing of abstract rewards in humans. Previous neuroimaging findings point to a challenging role of the dopaminergic system in music-evoked pleasure. However, there is a lack of direct evidence showing that dopamine function is causally related to the pleasure we experience from music. We addressed this problem through a double blind within-subject pharmacological design in which we directly manipulated dopaminergic synaptic availability while healthy participants (n = 27) were engaged in music listening. We orally administrated to each participant a dopamine precursor (levodopa), a dopamine antagonist (risperidone), and a placebo (lactose) in three different sessions. We demonstrate that levodopa and risperidone led to opposite effects in measures of musical pleasure and motivation: while the dopamine precursor levodopa, compared with placebo, increased the hedonic experience and music-related motivational responses, risperidone led to a reduction of both. This study shows a causal role of dopamine in musical pleasure and indicates that dopaminergic transmission might play different or additive roles than the ones postulated in affective processing so far, particularly in abstract cognitive activities. Understanding how the brain translates a structured sequence of sounds, such as music, into a pleasant and rewarding experience is a fascinating question which may be crucial to better understand the processing of abstract rewards in humans. Previous neuroimaging findings point to a challenging role of the dopaminergic system in music-evoked pleasure. However, there is a lack of direct evidence showing that dopamine function is causally related to the pleasure we experience from music. We addressed this problem through a double blind within-subject pharmacological design in which we directly manipulated dopaminergic synaptic availability while healthy participants ( = 27) were engaged in music listening. We orally administrated to each participant a dopamine precursor (levodopa), a dopamine antagonist (risperidone), and a placebo (lactose) in three different sessions. We demonstrate that levodopa and risperidone led to opposite effects in measures of musical pleasure and motivation: while the dopamine precursor levodopa, compared with placebo, increased the hedonic experience and music-related motivational responses, risperidone led to a reduction of both. This study shows a causal role of dopamine in musical pleasure and indicates that dopaminergic transmission might play different or additive roles than the ones postulated in affective processing so far, particularly in abstract cognitive activities. |
| Author | Riba, Jordi Mas-Herrero, Ernest Ripollés, Pablo Valle, Marta Antonijoan, Rosa M. Rodriguez-Fornells, Antoni Marco-Pallarés, Josep Alicart, Helena Olivé, Guillem Ferreri, Laura Zatorre, Robert J. Gomez-Andres, Alba |
| Author_xml | – sequence: 1 givenname: Laura surname: Ferreri fullname: Ferreri, Laura – sequence: 2 givenname: Ernest surname: Mas-Herrero fullname: Mas-Herrero, Ernest – sequence: 3 givenname: Robert J. surname: Zatorre fullname: Zatorre, Robert J. – sequence: 4 givenname: Pablo surname: Ripollés fullname: Ripollés, Pablo – sequence: 5 givenname: Alba surname: Gomez-Andres fullname: Gomez-Andres, Alba – sequence: 6 givenname: Helena surname: Alicart fullname: Alicart, Helena – sequence: 7 givenname: Guillem surname: Olivé fullname: Olivé, Guillem – sequence: 8 givenname: Josep surname: Marco-Pallarés fullname: Marco-Pallarés, Josep – sequence: 9 givenname: Rosa M. surname: Antonijoan fullname: Antonijoan, Rosa M. – sequence: 10 givenname: Marta surname: Valle fullname: Valle, Marta – sequence: 11 givenname: Jordi surname: Riba fullname: Riba, Jordi – sequence: 12 givenname: Antoni surname: Rodriguez-Fornells fullname: Rodriguez-Fornells, Antoni |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/30670642$$D View this record in MEDLINE/PubMed |
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| Copyright | Copyright National Academy of Sciences Feb 26, 2019 2019 |
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| Issue | 9 |
| Keywords | reward music dopamine pleasure motivation |
| Language | English |
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| Notes | ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 14 content type line 23 3M.V., J.R., and A.R.-F. contributed equally to this work. 1L.F. and E.M.-H. contributed equally to this work. Edited by Solomon H. Snyder, The Johns Hopkins University School of Medicine, Baltimore, MD, and approved December 14, 2018 (received for review July 12, 2018) Author contributions: L.F., E.M.-H., R.J.Z., M.V., J.R., and A.R.-F. designed research; R.M.A. provided logistical support; L.F., E.M.-H., A.G.-A., H.A., G.O., and M.V. performed research; L.F., E.M.-H., and G.O. analyzed data; and L.F., E.M.-H., R.J.Z., P.R., J.M.-P., M.V., J.R., and A.R.-F. wrote the paper. |
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| Snippet | Understanding how the brain translates a structured sequence of sounds, such as music, into a pleasant and rewarding experience is a fascinating question which... In everyday life humans regularly seek participation in highly complex and pleasurable experiences such as music listening, singing, or playing, that do not... |
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| SubjectTerms | Acoustics Administration, Oral Adult Auditory Perception - physiology Biological Sciences Brain Brain - drug effects Brain - physiology Cognitive ability Dopamine Dopamine - metabolism Dopamine Agonists - administration & dosage Dopamine receptors Emotions - physiology Female Hedonic response Humans Lactose Levodopa Levodopa - administration & dosage Male Medical imaging Motivation Music Neuroimaging Neurology Pharmacology Placebo Effect Pleasure - physiology Precursors Reinforcement Reward Risperidone Risperidone - administration & dosage Social Sciences Young Adult |
| Title | Dopamine modulates the reward experiences elicited by music |
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