Empirical support for an involvement of the mesostriatal dopamine system in human fear extinction

Exposure therapy for anxiety disorders relies on the principle of confronting a patient with the triggers of his fears, allowing him to make the unexpected safety experience that his fears are unfounded and resulting in the extinction of fear responses. In the laboratory, fear extinction is modeled...

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Veröffentlicht in:	Translational psychiatry 2011-06, Vol.1 (6), p.e12-e12
Hauptverfasser:	Raczka, K A, Mechias, M-L, Gartmann, N, Reif, A, Deckert, J, Pessiglione, M, Kalisch, R
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Schlagworte:	631/378/1595/2636 631/378/1595/2637 631/378/548/1964 692/700/565 Adult Basal Ganglia - metabolism Basal Ganglia - physiology Behavioral Sciences Biological Psychology Catechol O-Methyltransferase - genetics Catechol O-Methyltransferase - metabolism Conditioning, Classical - physiology Dopamine - genetics Dopamine - metabolism Dopamine - physiology Dopamine Plasma Membrane Transport Proteins - genetics Dopamine Plasma Membrane Transport Proteins - metabolism Extinction, Psychological - physiology Fear - physiology Humans Magnetic Resonance Imaging - methods Male Medicine Medicine & Public Health Neuropsychological Tests Neurosciences Original original-article Pharmacotherapy Psychiatry
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creator	Raczka, K A Mechias, M-L Gartmann, N Reif, A Deckert, J Pessiglione, M Kalisch, R
description	Exposure therapy for anxiety disorders relies on the principle of confronting a patient with the triggers of his fears, allowing him to make the unexpected safety experience that his fears are unfounded and resulting in the extinction of fear responses. In the laboratory, fear extinction is modeled by repeatedly presenting a fear-conditioned stimulus (CS) in the absence of the aversive unconditioned stimulus (UCS) to which it had previously been associated. Classical associative learning theory considers extinction to be driven by an aversive prediction error signal that expresses the expectation violation when not receiving an expected UCS and establishes a prediction of CS non-occurrence. Insufficiencies of this account in explaining various extinction-related phenomena could be resolved by assuming that extinction is an opponent appetitive-like learning process that would be mediated by the mesostriatal dopamine (DA) system. In accordance with this idea, we find that a functional polymorphism in the DA transporter gene, DAT1 , which is predominantly expressed in the striatum, significantly affects extinction learning rates. Carriers of the 9-repeat (9R) allele, thought to confer enhanced phasic DA release, had higher learning rates. Further, functional magnetic resonance imaging revealed stronger hemodynamic appetitive prediction error signals in the ventral striatum in 9R carriers. Our results provide a first hint that extinction learning might indeed be conceptualized as an appetitive-like learning process and suggest DA as a new candidate neurotransmitter for human fear extinction. They open up perspectives for neurobiological therapy augmentation.
doi_str_mv	10.1038/tp.2011.10
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Carriers of the 9-repeat (9R) allele, thought to confer enhanced phasic DA release, had higher learning rates. Further, functional magnetic resonance imaging revealed stronger hemodynamic appetitive prediction error signals in the ventral striatum in 9R carriers. Our results provide a first hint that extinction learning might indeed be conceptualized as an appetitive-like learning process and suggest DA as a new candidate neurotransmitter for human fear extinction. 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In the laboratory, fear extinction is modeled by repeatedly presenting a fear-conditioned stimulus (CS) in the absence of the aversive unconditioned stimulus (UCS) to which it had previously been associated. Classical associative learning theory considers extinction to be driven by an aversive prediction error signal that expresses the expectation violation when not receiving an expected UCS and establishes a prediction of CS non-occurrence. Insufficiencies of this account in explaining various extinction-related phenomena could be resolved by assuming that extinction is an opponent appetitive-like learning process that would be mediated by the mesostriatal dopamine (DA) system. In accordance with this idea, we find that a functional polymorphism in the DA transporter gene, DAT1 , which is predominantly expressed in the striatum, significantly affects extinction learning rates. Carriers of the 9-repeat (9R) allele, thought to confer enhanced phasic DA release, had higher learning rates. Further, functional magnetic resonance imaging revealed stronger hemodynamic appetitive prediction error signals in the ventral striatum in 9R carriers. Our results provide a first hint that extinction learning might indeed be conceptualized as an appetitive-like learning process and suggest DA as a new candidate neurotransmitter for human fear extinction. They open up perspectives for neurobiological therapy augmentation.</abstract><cop>London</cop><pub>Nature Publishing Group UK</pub><pmid>22832428</pmid><doi>10.1038/tp.2011.10</doi><oa>free_for_read</oa></addata></record>
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subjects	631/378/1595/2636 631/378/1595/2637 631/378/548/1964 692/700/565 Adult Basal Ganglia - metabolism Basal Ganglia - physiology Behavioral Sciences Biological Psychology Catechol O-Methyltransferase - genetics Catechol O-Methyltransferase - metabolism Conditioning, Classical - physiology Dopamine - genetics Dopamine - metabolism Dopamine - physiology Dopamine Plasma Membrane Transport Proteins - genetics Dopamine Plasma Membrane Transport Proteins - metabolism Extinction, Psychological - physiology Fear - physiology Humans Magnetic Resonance Imaging - methods Male Medicine Medicine & Public Health Neuropsychological Tests Neurosciences Original original-article Pharmacotherapy Psychiatry
title	Empirical support for an involvement of the mesostriatal dopamine system in human fear extinction
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