Dissociated neural effects of cortisol depending on threat escapability

Publication date

2015-11

Authors

Montoya, Estrella RISNI 0000000419519902
van Honk, JackISNI 0000000042813326
Bos, Peter A.ISNI 0000000396515326
Terburg, DavidISNI 0000000393680801

Editors

Advisors

Supervisors

Document Type

Article
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License

taverne

Abstract

Evolution has provided us with a highly flexible neuroendocrine threat system which, depending on threat imminence, switches between active escape and passive freezing. Cortisol, the "stress-hormone", is thought to play an important role in both fear behaviors, but the exact mechanisms are not understood. Using pharmacological functional magnetic resonance imaging we investigated how cortisol modulates the brain's fear systems when humans are under virtual-predator attack. We show dissociated neural effects of cortisol depending on whether escape from threat is possible. During inescapable threat cortisol reduces fear-related midbrain activity, whereas in anticipation of active escape cortisol boosts activity in the frontal salience network (insula and anterior cingulate cortex), which is involved in autonomic control, visceral perception and motivated action. Our findings suggest that cortisol adjusts the human neural threat system from passive fear to active escape, which illuminates the hormone's crucial role in the adaptive flexibility of fear behaviors. Hum Brain Mapp 36:4304-4316, 2015. © 2015 Wiley Periodicals, Inc.

Keywords

cortisol, threat escape, salience network, Taverne

Citation

Montoya, E R, van Honk, J, Bos, P A & Terburg, D 2015, 'Dissociated neural effects of cortisol depending on threat escapability', Human Brain Mapping, vol. 36, no. 11, pp. 4304-4316. https://doi.org/10.1002/hbm.22918