Abstract
Recent evidence suggests that the steroid hormone testosterone can decrease the functional coupling between orbitofrontal cortex (OFC) and amygdala. Theoretically this decoupling has been linked to a testosterone-driven increase of goal-directed behaviour in case of threat, but this has never been studied directly. Therefore, we placed twenty-two women in dynamically changing situations of escapable and inescapable threat after a within-subject placebo controlled testosterone administration. Using functional magnetic resonance imaging (fMRI) we provide evidence that testosterone activates the left lateral OFC (LOFC) in preparation of active goal-directed escape and decouples this OFC area from a subcortical threat system including the central-medial amygdala, hypothalamus and periaqueductal gray. This LOFC decoupling was specific to threatening situations, a point that was further emphasized by an absence of such decoupling in a second experiment focused on resting-state connectivity. These results not only confirm that testosterone administration decouples the LOFC from the subcortical threat system, but also show that this is specifically the case in response to acute threat, and ultimately leads to an increase in LOFC activity when the participant prepares a goal-directed action to escape. Together these results for the first time provide a detailed understanding of functional brain alterations induced by testosterone under threat conditions, and corroborate and extend the view that testosterone prepares the brain for goal-directed action in case of threat.
Highlights
The steroid hormone testosterone has a well-established role in the reduction of fear and the promotion of dominance motivation and aggression in many species (Mazur and Booth, 1998; Wingfield et al, 1990)
This study provides evidence that a single administration of testosterone changes the activation and connectivity pattern of the left lateral OFC (LOFC) in response to acute threat
Testosterone activates the left LOFC in situations of goal-directed escape anticipation, and decouples the left LOFC from a subcortical threat network (i.e. central-medial amygdala (CMA), hypothalamus, and PAG) during threatening compared to safe situations
Summary
The steroid hormone testosterone has a well-established role in the reduction of fear and the promotion of dominance motivation and aggression in many species (Mazur and Booth, 1998; Wingfield et al, 1990). The neural mechanisms underlying these effects are not yet clear, but it has been suggested that testosterone administration can decouple the orbitofrontal cortex (OFC) from subcortical threat reactivity, leading to an increase in impulse-driven and goal-directed behaviour in response to threat (Terburg and van Honk, 2013b; van Honk et al, 2011). Direct evidence for this hypothesis is currently lacking as acute threat reactivity in the brain and associated goal-directed behaviour have not yet been studied in relation to testosterone administration. We were able to investigate the hypothesis that testosterone’s decoupling of the OFC
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