Cortical dopamine reduces the impact of motivational biases governing automated behaviour
Cortical dopamine reduces the impact of motivational biases governing automated behaviour
Motivations shape our behaviour: the promise of reward invigorates, while in the face of punishment, we hold back. Abnormalities of motivational processing are implicated in clinical disorders characterised by excessive habits and loss of top-down control, notably substance and behavioural addictions. Striatal and frontal dopamine have been hypothesised to play complementary roles in the respective generation and control of these motivational biases. However, while dopaminergic interventions have indeed been found to modulate motivational biases, these previous pharmacological studies used regionally non-selective pharmacological agents. Here, we tested the hypothesis that frontal dopamine controls the balance between Pavlovian, bias-driven automated responding and instrumentally learned action values. Specifically, we examined whether selective
enhancement of cortical dopamine either (i) enables adaptive suppression of Pavlovian control when biases are maladaptive; or (ii) non-specifically modulates the degree of bias-driven automated responding. Healthy individuals (n=35) received the catechol-o-methyltransferase (COMT) inhibitor tolcapone in a randomized, double-blind, placebo-controlled cross-over design, and completed a motivational Go NoGo task known to elicit motivational biases. In support of hypothesis (ii), tolcapone globally decreased motivational bias. Specifically, tolcapone improved performance on trials where the bias was unhelpful, but impaired performance in bias-congruent conditions. These results indicate a non-selective role for cortical dopamine in the regulation of motivational processes underpinning top-down control over automated behaviour. The findings have direct relevance to understanding neurobiological mechanisms underpinning addiction and obsessive-compulsive disorders, as well as highlighting a potential trans-diagnostic novel mechanism to address such symptoms.
Decision making, frontal dopamine, tolcapone
1503-1512
Scholz, Vanessa
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Hook, Roxanne
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Kandroodi, Mojtaba Rostami
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Algermissen, Johannes
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Ioannidis, Konstantinos
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Christmas, David
00c57af3-2daa-429c-8168-7174266095a4
Robbins, Trevor W.
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Valle, Stephanie
fdb6f4ca-a7e1-4e3d-bbf5-4dd380570aa5
Grant, Jon E.
07372bd5-8a0d-42b4-b41b-e376c652acf3
Chamberlain, Samuel
8a0e09e6-f51f-4039-9287-88debe8d8b6f
den Ouden, Hanneke EM
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1 July 2022
Scholz, Vanessa
b7798faf-33a5-426c-a441-0a388426101a
Hook, Roxanne
df1adf71-644e-413d-9b35-71264df83e0c
Kandroodi, Mojtaba Rostami
030acd0d-d338-4072-8535-28d59dd2284c
Algermissen, Johannes
b216dc0b-b25a-4d83-a4e3-942bee5571f5
Ioannidis, Konstantinos
0dfc1d89-41be-4d02-ae50-698117e80141
Christmas, David
00c57af3-2daa-429c-8168-7174266095a4
Robbins, Trevor W.
20dd57dd-dbf3-4aaa-b7ba-bb4387ffcbc7
Valle, Stephanie
fdb6f4ca-a7e1-4e3d-bbf5-4dd380570aa5
Grant, Jon E.
07372bd5-8a0d-42b4-b41b-e376c652acf3
Chamberlain, Samuel
8a0e09e6-f51f-4039-9287-88debe8d8b6f
den Ouden, Hanneke EM
446d43ef-062d-4d78-a051-e5124a16ebdf
Scholz, Vanessa, Hook, Roxanne, Kandroodi, Mojtaba Rostami, Algermissen, Johannes, Ioannidis, Konstantinos, Christmas, David, Robbins, Trevor W., Valle, Stephanie, Grant, Jon E., Chamberlain, Samuel and den Ouden, Hanneke EM
(2022)
Cortical dopamine reduces the impact of motivational biases governing automated behaviour.
Neuropsychopharmacology, 47 (8), .
(doi:10.1038/s41386-022-01291-8).
Abstract
Motivations shape our behaviour: the promise of reward invigorates, while in the face of punishment, we hold back. Abnormalities of motivational processing are implicated in clinical disorders characterised by excessive habits and loss of top-down control, notably substance and behavioural addictions. Striatal and frontal dopamine have been hypothesised to play complementary roles in the respective generation and control of these motivational biases. However, while dopaminergic interventions have indeed been found to modulate motivational biases, these previous pharmacological studies used regionally non-selective pharmacological agents. Here, we tested the hypothesis that frontal dopamine controls the balance between Pavlovian, bias-driven automated responding and instrumentally learned action values. Specifically, we examined whether selective
enhancement of cortical dopamine either (i) enables adaptive suppression of Pavlovian control when biases are maladaptive; or (ii) non-specifically modulates the degree of bias-driven automated responding. Healthy individuals (n=35) received the catechol-o-methyltransferase (COMT) inhibitor tolcapone in a randomized, double-blind, placebo-controlled cross-over design, and completed a motivational Go NoGo task known to elicit motivational biases. In support of hypothesis (ii), tolcapone globally decreased motivational bias. Specifically, tolcapone improved performance on trials where the bias was unhelpful, but impaired performance in bias-congruent conditions. These results indicate a non-selective role for cortical dopamine in the regulation of motivational processes underpinning top-down control over automated behaviour. The findings have direct relevance to understanding neurobiological mechanisms underpinning addiction and obsessive-compulsive disorders, as well as highlighting a potential trans-diagnostic novel mechanism to address such symptoms.
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Accepted/In Press date: 2 February 2022
e-pub ahead of print date: 8 March 2022
Published date: 1 July 2022
Additional Information:
Funding: This research was funded by Wellcome via grants [110049/Z/15/Z & 110049/Z/15/A] to SRC. For the purpose of open access, the author has applied a CC BY public copyright licence to any Author Accepted Manuscript version arising from this submission. VS was supported by a research scholarship by the
German Research Foundation (SCHO 1815/1-1 & SCHO 1815/2-1). HEMdO was supported by a Vidi Award from the Netherlands Organization for Scientific Research (175.450).
Keywords:
Decision making, frontal dopamine, tolcapone
Identifiers
Local EPrints ID: 455841
URI: http://eprints.soton.ac.uk/id/eprint/455841
ISSN: 0893-133X
PURE UUID: f03ec843-ac91-41d5-8fad-2f77a299667e
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Date deposited: 06 Apr 2022 16:43
Last modified: 30 Aug 2024 02:00
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Contributors
Author:
Vanessa Scholz
Author:
Roxanne Hook
Author:
Mojtaba Rostami Kandroodi
Author:
Johannes Algermissen
Author:
Konstantinos Ioannidis
Author:
David Christmas
Author:
Trevor W. Robbins
Author:
Stephanie Valle
Author:
Jon E. Grant
Author:
Samuel Chamberlain
Author:
Hanneke EM den Ouden
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