Brain and Behavior (Dec 2020)
What it takes to be at the top: The interrelationship between chronic social stress and social dominance
Abstract
Abstract Introduction Dominance hierarchies of social animal groups are very sensitive to stress. Stress experienced prior to social interactions between conspecifics may be a determinant of their future social dynamics. Additionally, long‐term occupancy of a specific hierarchical rank can have psychophysiological effects which increase vulnerability to future stressors. Methods We aimed to delineate differential effects of stress acting before or after hierarchy formation. We studied whether exposure to the chronic social defeat stress (CSDS) paradigm before a two‐week‐long hierarchy formation affected the attainment of a dominant status using the social confrontation tube test (TT). These animals were singly housed for at least one week before CSDS to decrease confounding effects of prior hierarchy experience. Additionally, we investigated whether social rank predicted vulnerability to CSDS, measured by a social interaction test. Results In TT, mice termed as dominant (high rank) win the majority of social confrontations, while the subordinates (low rank) lose more often. Within newly established hierarchies of stress‐naïve mice, the subordinate, but not dominant, mice exhibited significantly greater avoidance of novel social targets. However, following exposure to CSDS, both lowest‐ and highest‐ranked mice exhibited susceptibility to stress as measured by decreased interactions with a novel social target. In contrast, after CSDS, both stress‐susceptible (socially avoidant) and stress‐resilient (social) mice were able to attain dominant ranks in newly established hierarchies. Conclusion These results suggest that the response to CSDS did not determine social rank in new cohorts, but low‐status mice in newly established groups exhibited lower sociability to novel social targets. Interestingly, exposure of a hierarchical social group to chronic social stress led to stress susceptibility in both high‐ and low‐status mice as measured by social interaction.
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