Doubliez Alice, Köster Kristina, Müntefering Lara, Nio Enzo, Diekmann Nicolas, Thieme Andreas, Albayrak Bilge, Nicksirat Seyed Ali, Erdlenbruch Friedrich, Batsikadze Giorgi, Ernst Thomas Michael, Cheng Sen, Merz Christian Josef, Timmann Dagmar
Department of Neurology and Center for Translational Neuro- and Behavioral Sciences (C-TNBS), Essen University Hospital, University of Duisburg-Essen, 45147 Essen, Germany.
Institute for Neural Computation, Faculty of Computer Science, Ruhr University Bochum, Bochum 44801, Germany.
Brain Commun. 2025 Sep 8;7(5):fcaf333. doi: 10.1093/braincomms/fcaf333. eCollection 2025.
The ability to extinguish learned fear responses is crucial for adaptive behaviour. The mesolimbic dopaminergic system originating in the ventral tegmental area has been proposed to contribute to fear extinction learning because of its critical role in reward learning. The unexpected omission of aversive unconditioned stimuli (US) is considered rewarding (outcome better than expected) and drives extinction learning. We tested the hypothesis that extinction learning is facilitated by dopaminergic drugs and impeded by anti-dopaminergic drugs. The effects of dopamine agonists [levodopa (100 mg) and bromocriptine (1.25 mg)] and antagonists [tiapride (100 mg) and haloperidol (3 mg)] on fear extinction learning were compared with placebo in 146 young and healthy human participants. A 3-day differential fear-conditioning paradigm was performed with pupil size and skin conductance responses (SCRs) being recorded. Participants underwent fear acquisition training on Day 1, extinction training on Day 2 and recall on Day 3. The conditioned stimuli (CS+, CS-) consisted of two geometric figures. A short electrical stimulation was used as the aversive US. One of the four drugs or placebo was administered prior to the extinction phase on Day 2. Overall, effects were small and seen only in the bromocriptine group. In accordance with our hypothesis, we measured reduced pupil dilation during late recall in the bromocriptine group compared with the placebo group, indicating faster re-extinction of spontaneously recovered fear reactions on the third day. The effects of levodopa and haloperidol were unspecific and related to generally increased SCR levels in the levodopa group (already prior to drug intake) and miotic side-effects of haloperidol. These findings provide additional support that the dopaminergic system contributes to extinction learning in humans, possibly by improving consolidation of fear extinction memory.
消除习得的恐惧反应的能力对适应性行为至关重要。起源于腹侧被盖区的中脑边缘多巴胺能系统,因其在奖赏学习中的关键作用,被认为有助于恐惧消退学习。厌恶非条件刺激(US)的意外遗漏被视为有奖励作用(结果优于预期)并驱动消退学习。我们测试了多巴胺能药物促进消退学习而抗多巴胺能药物阻碍消退学习这一假设。在146名年轻健康的人类参与者中,将多巴胺激动剂[左旋多巴(100毫克)和溴隐亭(1.25毫克)]及拮抗剂[硫必利(100毫克)和氟哌啶醇(3毫克)]对恐惧消退学习的影响与安慰剂进行了比较。采用了为期3天的差异恐惧条件范式,并记录瞳孔大小和皮肤电导反应(SCR)。参与者在第1天接受恐惧习得训练,第2天接受消退训练,第3天进行回忆。条件刺激(CS +,CS -)由两个几何图形组成。短时间电刺激用作厌恶US。在第2天的消退阶段之前给予四种药物之一或安慰剂。总体而言,影响较小,仅在溴隐亭组中可见。与我们的假设一致,我们发现溴隐亭组在回忆后期与安慰剂组相比瞳孔扩张减小,表明第三天自发恢复的恐惧反应再消退更快。左旋多巴和氟哌啶醇的作用是非特异性的,且与左旋多巴组(在服药前就已出现)SCR水平普遍升高以及氟哌啶醇的缩瞳副作用有关。这些发现进一步支持了多巴胺能系统有助于人类消退学习,可能是通过改善恐惧消退记忆的巩固来实现的。
