Human cerebellum and ventral tegmental area interact during extinction of learned fear
Nio, E.; Pereira, P. P.; Diekmann, N.; Petrenko, M.; Doubliez, A.; Ernst, T. M.; Batsikadze, G.; Maderwald, S.; Deuschl, C.; Uengoer, M.; Cheng, S.; Merz, C. J.; Quick, H. H.; Timmann, D.
Show abstract
The key elements for fear extinction learning are unexpected omissions of expected aversive events, which are considered to be rewarding. Given its reception of reward information, we tested the hypothesis that the cerebellum contributes to reward-like prediction error processing driving extinction learning via its connections with the ventral tegmental area (VTA). Forty-three young and healthy participants performed a three-day fear conditioning paradigm in a 7T MR scanner. The cerebellum and VTA were active during unexpected omissions of aversive unconditioned stimuli in the initial extinction trials and in other learning phases, in line with the proposed role of prediction-error processing. Increased functional connectivity was observed between the cerebellum and VTA, indicating that they are functionally coupled during fear extinction learning. These results suggest that an interaction between the cerebellum and VTA should be incorporated into the existing model of the fear extinction network.
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