Abstract
The medial amygdala (MeA) is activated by social stimuli and manipulations of the MeA disrupt a wide range of social behaviors. Social stress can shift social behaviors and may accomplish this partly via effects on the MeA. However, very little is known about the effects of social stress on the electrophysiological activity of MeA neurons. The posterior division of the MeA (MeAp) has been implicated in driving social engagement. We hypothesized that repeated social stress would cause parallel changes in in vivo activity of MeAp neurons and social behavior. The resident-intruder paradigm was used to produce a repeated social stress in adult male rats. After repeated social stress, MeAp neurons were recorded with in vivo single-unit electrophysiology in anesthetized rats. MeAp neurons, specifically those in the posterodorsal subnucleus (MeApd), fired faster in stressed rats than controls, and this effect was directly associated with stressor intensity. The MeAp sends dense projections to the posterior bed nucleus of stria terminalis (pBNST) and ventromedial hypothalamus (VMH), and both regions are essential for social engagement and are sensitive to social stressors. MeAp projections to pBNST had higher activity after stress, while projections to the VMH were not affected. These effects were significant only in rats that displayed susceptibility to this social stressor, as demonstrated by lower weight gain. Furthermore, the effect of stress on MeApd and MeAp-pBNST neuronal firing was correlated with lower social interaction. These results indicate that heightened MeApd and MeA-pBNST activity may contribute to alterations in social behaviors following social stress.
Published Version
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