Abstract
Chronic social defeat stress (CSDS) is a well-established rodent model of depression that induces persistent social avoidance. CSDS triggers molecular adaptations throughout the mesocorticolimbic reward circuit, including changes in the activity of dopamine neurons in the ventral tegmental area (VTA), that may also influence drug reward. One limitation of traditional, physical CSDS (PS) is that injury complicates the study of opiate drugs like morphine. Thus, we sought to characterize a variation of CSDS, termed emotional CSDS (ES), that eliminates this confound. We assessed the effect of PS and ES on mesocorticolimbic circuit activation, VTA gene expression, and morphine intake. We found that PS and ES similarly induced ΔFosB in the hippocampus, but only PS significantly increased ΔFosB expression in the prefrontal cortex and striatum. In contrast, cFos expression was similarly reduced by both PS and ES. Interestingly, we found that PS and ES similarly increased voluntary morphine consumption immediately following stress, despite differences in the magnitude of the depressive phenotype and striatal ΔFosB expression at this time point. Combined, these data suggest that both stress paradigms may be useful for investigation of stress-induced changes in drug behavior.
Highlights
Chronic social defeat stress (CSDS) is a preclinical rodent model used to study stress-induced mood disorders, depression
This time-course is similar to published results, where physical CSDS (PS) mice have a maximal reduction in social interaction (SI) ratio on day 1 (D1) but emotional CSDS (ES) do not display a robust social avoidance phenotype (~0.6 SI ratio) until D2813
We assessed expression of other candidate genes involved in neuronal excitability identified from previous RNA sequencing (Prkcd, Kcnj[13], Ramp[3], Gabrd), but did not observe any significant differences between groups (Table 3). These data suggest that alterations in ventral tegmental area (VTA) gene expression driven by social stress may be subtle, and further work will be required to uncover VTA genes that drive cellular and behavioral responses to stress. The goal of these studies was to determine whether a variant of CSDS that eliminates physical contact, termed emotional or vicarious CSDS13, 27, elicits similar changes in mesocorticolimbic circuitry, reward behavior, and VTA gene expression to those caused by traditional physical CSDS
Summary
Chronic social defeat stress (CSDS) is a preclinical rodent model used to study stress-induced mood disorders, depression. CSDS induces sensitization to a variety of drugs of abuse, with mice showing alterations in cocaine- and alcohol-associated behaviors[4,5,6,7] While this interaction of stress, mood disorders, and drug sensitization has been well established, the molecular and circuit-level mechanisms contributing to this cross-sensitization are not well understood. We determined the presence of an immediate increase in opiate reward and consumption following both ES and PS, despite differences in social avoidance phenotypes at this time point These data suggest that the molecular changes occurring immediately after either stressor directly affect opiate sensitization and that mechanisms responsible for long-term neuroadaptations that maintain depressive-like behavior may play less of a role, as morphine preference was normalized two weeks following CSDS. This study demonstrates the similar molecular and behavioral responses to both CSDS paradigms and highlights ES as a useful model in the study of stress-induced changes in opiate reward and intake
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