Abstract
Decisions under threat are crucial to survival and require integration of distinct situational features, such as threat probability and magnitude. Recent evidence from human lesion and neuroimaging studies implicated anterior hippocampus (aHC) and amygdala in approach–avoidance decisions under threat, and linked their integrity to cautious behavior. Here we sought to elucidate how threat dimensions and behavior are represented in these structures. Twenty human participants (11 female) completed an approach–avoidance conflict task during high-resolution fMRI. Participants could gather tokens under threat of capture by a virtual predator, which would lead to token loss. Threat probability (predator wake-up rate) and magnitude (amount of token loss) varied on each trial. To disentangle effects of threat features, and ensuing behavior, we performed a multifold parametric analysis. We found that high threat probability and magnitude related to BOLD signal in left aHC/entorhinal cortex. However, BOLD signal in this region was better explained by avoidance behavior than by these threat features. A priori ROI analysis confirmed the relation of aHC BOLD response with avoidance. Exploratory subfield analysis revealed that this relation was specific to anterior CA2/3 but not CA1. Left lateral amygdala responded to low and high, but not intermediate, threat probability. Our results suggest that aHC BOLD signal is better explained by avoidance behavior than by threat features in approach–avoidance conflict. Rather than representing threat features in a monotonic manner, it appears that aHC may compute approach–avoidance decisions based on integration of situational threat features represented in other neural structures.SIGNIFICANCE STATEMENT An effective threat anticipation system is crucial to survival across species. Natural threats, however, are diverse and have distinct features. To be able to adapt to different modes of danger, the brain needs to recognize these features, integrate them, and use them to modify behavior. Our results disclose the human anterior hippocampus as a likely arbiter of approach–avoidance decisions harnessing compound environmental information while partially replicating previous findings and blending into recent efforts to illuminate the neural basis of approach–avoidance conflict in humans.
Highlights
Significance StatementAn effective threat anticipation system is crucial to survival across species
Integrating divergent situational demands is critical to survival, in particular, when predatory or metabolic threat is involved (Korn and Bach, 2015, 2018, 2019)
Main and interaction effects significant after Holm-Bonferroni correction (*p, 0.05; **p, 0.01; ***p, 0.001) from Analysis of Variance (ANOVA) of mixed effects model of estimated condition-by-condition BOLD response averaged across region-of-interest
Summary
An effective threat anticipation system is crucial to survival across species. Natural threats are diverse and have distinct features. To be able to adapt to different modes of danger, the brain needs to recognize these features, integrate them, and use them to modify behavior. Our results disclose the human anterior hippocampus as a likely arbiter of approach–avoidance decisions harnessing compound environmental information while partially replicating previous findings and blending into recent efforts to illuminate the neural basis of approach–avoidance conflict in humans. Received Nov. 14, 2019; revised June 15, 2020; accepted June 20, 2020. D.R.B. edited the paper; A.A. and D.R.B. wrote the paper; S.K. and D.R.B. designed research; S.K. performed research
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