Abstract
Learning to be safe is central for adaptive behaviour when threats are no longer present. Detecting the absence of an expected threat is key for threat extinction learning and an essential process for the behavioural treatment of anxiety-related disorders. One possible mechanism underlying extinction learning is a dopaminergic mismatch signal that encodes the absence of an expected threat. Here we show that such a dopamine-related pathway underlies extinction learning in humans. Dopaminergic enhancement via administration of L-DOPA (vs. Placebo) was associated with reduced retention of differential psychophysiological threat responses at later test, which was mediated by activity in the ventromedial prefrontal cortex that was specific to extinction learning. L-DOPA administration enhanced signals at the time-point of an expected, but omitted threat in extinction learning within the nucleus accumbens, which were functionally coupled with the ventral tegmental area and the amygdala. Computational modelling of threat expectancies further revealed prediction error encoding in nucleus accumbens that was reduced when L-DOPA was administered. Our results thereby provide evidence that extinction learning is influenced by L-DOPA and provide a mechanistic perspective to augment extinction learning by dopaminergic enhancement in humans.
Highlights
In order to thrive in dangerous environments, it is important to know when threats are disappearing and situations become safe
Our results provide evidence that dopaminergic processes are involved in threat extinction learning
Dopaminergic enhancement during extinction learning augmented extinction memory at a later test, which was mediated by extinctio-learnin-specific ventral part of the medial prefrontal cortex (vmPFC) responses
Summary
In order to thrive in dangerous environments, it is important to know when threats are disappearing and situations become safe. Salinas-Hernández et al, 2018; Zhang et al, 2020; Aksoy-Aksel et al, 2021) revealed that the omission of an expected aversive outcomes depends on signals in the dopaminergic system In rodents, this involved dopaminergic neurons in the ventral tegmental area (VTA), the nucleus accumbens, and the medial prefrontal cortex, as well as projections between the VTA and nucleus accumbens (Badrinarayan et al, 2012; Luo et al, 2018; Oleson et al, 2012; Rodriguez-Romaguera et al, 2012). Based on previous studies (Gerlicher et al, 2018; Haaker et al, 2013), we hypothesised that L-D OPA administration before extinction training would decrease threat responses at retention tests
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