Testosterone biases the amygdala toward social threat approach

Radke, Sina; Volman, Inge; Mehta, Pranjal H.; Son, Veerle van; Enter, Dorien; Sanfey, Alan G.; Toni, Ivan; Bruijn, Ellen R.A. de; Roelofs, Karin

doi:10.1126/sciadv.1400074

Cited by 93 publications

(62 citation statements)

References 44 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…This low-status prevention mechanism aligns with evidence suggesting that high-testosterone individuals are more comfortable in high-status positions and find low-status positions (e.g., defeat in competition) stressful and aversive Newman et al, 2005;Mehta et al, 2008). This interpretation is also consistent with growing evidence suggesting that exogenous testosterone administration in both men and women increases sensitivity to status threat cues and motivates dominant behaviors (e.g., van Honk et al, 2001;Hermans et al, 2006;Hermans et al, 2008;Wright et al, 2012;Bos et al, 2010Bos et al, , 2012Terburg et al, 2012;Boksem et al, 2013;Goetz et al, 2014;Enter et al, 2014;Radke et al, 2015;Mehta et al, 2015c). In contrast, low-testosterone individuals may find high-status positions uncomfortable and may actually prefer lower status as well as social cooperation (e.g., Wingfield et al, 1990;Josephs et al, 2006;Mehta et al, 2009;Wright et al, 2012;Edelstein et al, 2014).…”

Section: Discussionsupporting

confidence: 80%

“…More specifically, testosterone's association with decision-making in the hawk-dove game may be explained by activity in neural regions implicated in threat processing (amygdala) as well as self-regulation and impulse control (orbitofrontal cortex). Testosterone enhances amygdala reactivity (Hermans et al, 2008;Gospic et al, 2011;Goetz et al, 2014;Radke et al, 2015), reduces orbitofrontal cortex activity (Mehta and Beer, 2010), and disrupts amygdala-prefrontal cortex connectivity in response to social threat cues (van Wingen et al, 2010;Volman et al, 2011). These neural mechanisms have all been associated with testosterone-dependent aggressive and dominant behaviors .…”

Section: Discussionmentioning

confidence: 96%

“…Research in humans also demonstrates connections between testosterone and status-seeking behavior (for reviews, see Mazur and Booth, 1998;Archer, 2006;Eisenegger et al, 2011;Hamilton et al, 2015). Both endogenous testosterone and exogenously elevated testosterone are positively related to markers of dominance motivation (van Honk et al, 2001;Schultheiss et al, 2005;Josephs et al, 2006;Hermans et al, 2008;Bos et al, 2012;Terburg et al, 2012;Terburg and van Honk, 2013;Goetz et al, 2014;Enter et al, 2014;Radke et al, 2015;Mehta et al, 2008;Zilioli and Watson, 2013;van der Meij et al, 2016), aggressive behavior (Carré et al, 2009;Carré and Olmstead, 2015), competitive behavior Carré and McCormick, 2008;Mehta et al, 2008Mehta et al, , 2009Slatcher et al, 2011;Mehta et al, 2015bMehta et al, , 2015cReimers and Diekhof, 2015;Hahn et al, 2016;Eisenegger et al, 2016), and reduced prosocial behaviors including trust, perspective-taking, cooperation, and empathy (Hermans et al, 2006;Mehta et al, 2009;Bos et al, 2010;van Honk et al, 2011;Boksem et al, 2013;Wright et al, 2012;Ronay and Carney, 2013;Edelstein et al, 2014).…”

mentioning

confidence: 95%

See 2 more Smart Citations

Hormonal underpinnings of status conflict: Testosterone and cortisol are related to decisions and satisfaction in the hawk-dove game

Mehta

DesJardins

Vugt

et al. 2017

Hormones and Behavior

View full text Add to dashboard Cite

A contribution to a special issue on Hormones and Human Competition.Testosterone is theorized to influence status-seeking behaviors such as social dominance and competitive behavior, but supporting evidence is mixed. The present study tested the roles of testosterone and cortisol in the hawk-dove game, a dyadic economic decision-making paradigm in which earnings depend on one's own and the other player's choices. If one person selects the hawk strategy and the other person selects the dove strategy, the player who selected hawk attains a greater financial pay-off (status differentiation). The worst financial outcome occurs when both players choose the hawk strategy (status confrontation). Ninety-eight undergraduate students (42 men) provided saliva samples and played ten rounds of the hawk-dove game with another same-sex participant. In support of the hypothesis that testosterone is related to status concern, individuals higher in basal testosterone made more hawk decisions - decisions that harmed the other player. Acute decreases in cortisol were also associated with more hawk decisions. There was some empirical support for the dual-hormone hypothesis as well: basal testosterone was positively related to satisfaction in the game among low basal-cortisol individuals but not among high basal-cortisol individuals. There were no significant sex differences in these hormonal effects. The present findings align with theories of hormones and status-seeking behavior at the individual level, but they also open up new avenues for research on hormone profiles at the collective level. Our results suggest that the presence of two or more high-testosterone members increases the likelihood of status confrontations over a limited resource that can undermine collective outcomes.

show abstract

Section: Discussionsupporting

confidence: 80%

Section: Discussionmentioning

confidence: 96%

mentioning

confidence: 95%

See 1 more Smart Citation

Hormonal underpinnings of status conflict: Testosterone and cortisol are related to decisions and satisfaction in the hawk-dove game

Mehta

DesJardins

Vugt

et al. 2017

Hormones and Behavior

View full text Add to dashboard Cite

show abstract

“…These findings parallel evidence in women in which a single administration of T increases amygdala and hypothalamic reactivity to angry facial expressions (19)(20)(21). Notably, these subcortical brain structures are rich in both androgen and estrogen receptors (22)(23)(24) and play a key role in potentiating reactive aggression in animal models (1,25).…”

Section: Introductionsupporting

confidence: 68%

“…The finding that trait dominance and self-control both interacted with drug condition and explained unique variance in aggressive behavior suggests that distinct neural mechanisms may underlie the aggression-potentiating effects of T. It has been hypothesized that heightened amygdala reactivity to social signals of threat and/or social provocation may mediate the link between T and human aggression (3,27,(47)(48). Consistent with this idea, experimental work indicates that exogenous T potentiates amygdala reactivity to angry faces (18)(19)(20)(21), promotes prolonged eye gaze toward masked angry facial expressions (49), and heightened amygdala reactivity to social provocation positively predicts aggressive behavior (50). Notably, people scoring high on measures that tap into the construct of trait dominance (e.g., behavioral activation system; interpersonal/affective dimensions of psychopathy) also demonstrate heightened amygdala reactivity to angry facial expressions (51)(52) and demonstrate prolonged eye gaze toward masked angry faces (53).…”

Section: Resultsmentioning

confidence: 88%

Exogenous Testosterone Rapidly Increases Aggressive Behavior in Dominant and Impulsive Men

Carré

Geniole

Ortiz

et al. 2017

Biological Psychiatry

183

109

View full text Add to dashboard Cite

From words to action: Implicit attention to antisocial semantic cues predicts aggression and amygdala reactivity to angry faces in healthy young women

Buades-Rotger

Krämer

2018

Aggressive Behavior

View full text Add to dashboard Cite

Implicit measures of aggressiveness are able to circumvent response biases that plague self-reports, but it is unclear how they link to neural activation during aggressive interactions and to aggression-related endocrine function. Here, we tested whether an implicit attentional bias toward antisocial semantic information was associated with endogenous testosterone (T) and cortisol (C) levels, as well as with aggressive behavior and amygdala reactivity to angry faces in a separate competitive paradigm. On Day one, participants (39 healthy young women) completed an emotional word Stroop task in which they had to indicate the font color of antisocial, prosocial, or neutral words. On Day two, we measured subjects' brain activity during a competitive reaction time task in which the female opponent displayed angry or neutral facial expressions at the start of each trial and provoked participants with increasingly strong sound blasts. T and C were measured in saliva during a regular weekday as well as before and after scanning. We previously showed that aggression was associated with enhanced amygdala reactivity to angry faces in this sample. The present analyses revealed that subjects were slower to identify the font color of antisocial relative to neutral words, and that this attentional bias predicted higher aggression. T and C were uncorrelated with Stroop scores. Crucially, the relationship between implicit attention to antisocial words and aggression was mediated by amygdala reactivity to angry faces. Our data indicate that a tendency to dwell on implicit hostile cues reflects enhanced responsivity to overt anger displays.

show abstract

Testosterone biases the amygdala toward social threat approach

Abstract: Testosterone administration in human participants increased amygdala responses during threat approach and decreased it during threat avoidance.

Cited by 93 publications

References 44 publications

Hormonal underpinnings of status conflict: Testosterone and cortisol are related to decisions and satisfaction in the hawk-dove game

Hormonal underpinnings of status conflict: Testosterone and cortisol are related to decisions and satisfaction in the hawk-dove game

Exogenous Testosterone Rapidly Increases Aggressive Behavior in Dominant and Impulsive Men

From words to action: Implicit attention to antisocial semantic cues predicts aggression and amygdala reactivity to angry faces in healthy young women

Contact Info

Product

Resources

About