A water-based platform test of paired or group social dominance and neural activity in male and female mice

Social hierarchy is an evolutionarily-conserved phenomenon determined by social dominance behavior that has profound influence on health and relevance in neuropsychiatric disorders. Despite this, the neural mechanisms underlying social dominance remain unclear and current behavioral tests are limited. Here, we describe a novel platform test of social dominance where mice compete for space on a small, elevated platform surrounded by cold water and rank is calculated by total time spent on platform. To validate this assay, we conducted tube test followed by platform test in cages of male and female mice. We observed stable rank in both sexes using the platform test and saw notable differences in overall cage hierarchy between tube and platform. Motivated behavior as measured by attempts to get on the platform was reduced over time. Cooperative behavior as measured by shared time on platform was observed across all ranks but predominantly demonstrated by subordinate mice. Corticosterone levels were significantly higher in females but showed no rank-specific differences. Neuronal activity in the prefrontal cortex was not rank-dependent, however activity in the habenula scaled with rank in both sexes and was significantly correlated with dominance in males. We also investigated group social dynamics using the platform test and identified stable hierarchies with more exaggerated dominance compared to paired platform testing. These results introduce the platform test as a novel method for assessing social dominance behavior in male and female mice, which can be used to further our understanding of the neurobiology underlying social hierarchy.