Restraint increases both aggression and defence in female rats tested against same-sex unfamiliar conspecifics

A Novel Method for Chronic Social Defeat Stress in Female Mice

Historically, preclinical stress studies have often omitted female subjects, despite evidence that women have higher rates of anxiety and depression. In rodents, many stress susceptibility and resilience studies have focused on males as one commonly used paradigm-chronic social defeat stress-has proven challenging to implement in females. We report a new version of the social defeat paradigm that works in female mice. By applying male odorants to females to increase resident male aggressive behavior, we find that female mice undergo repeated social defeat stress and develop social avoidance, decreased sucrose preference, and decreased time in the open arms of the elevated plus maze relative to control mice. Moreover, a subset of the female mice in this paradigm display resilience, maintaining control levels of social exploration and sucrose preference. This method produces comparable results to those obtained in male mice and will greatly facilitate studying female stress susceptibility.

Measuring virgin female aggression in the female intruder test (FIT): effects of oxytocin, estrous cycle, and anxiety

The costs of violence and aggression in our society have stimulated the scientific search for the predictors and causes of aggression. The majority of studies have focused on males, which are considered to be more aggressive than females in most species. However, rates of offensive behavior in girls and young women are considerable and are currently rising in Western society. The extrapolation of scientific results from males to young, non-maternal females is a priori limited, based on the profound sex differences in brain areas and functioning of neurotransmitters involved in aggression. Therefore, we established a paradigm to assess aggressive behavior in young virgin female rats, i.e. the female intruder test (FIT). We found that approximately 40% of un-manipulated adult (10-11 weeks old) female Wistar rats attack an intruder female during the FIT, independent of their estrous phase or that of their intruder. In addition, adolescent (7-8 weeks old) female rats selected for high anxiety behavior (HABs) displayed significantly more aggression than non-selected (NAB) or low-anxiety (LAB) rats. Intracerebroventricular infusion of oxytocin (OXT, 0.1 µg/5 µl) inhibited aggressive behavior in adult NAB and LAB, but not HAB females. Adolescent NAB rats that had been aggressive towards their intruder showed increased pERK immunoreactivity (IR) in the hypothalamic attack area and reduced pERK-IR in OXT neurons in the paraventricular hypothalamic nucleus compared to non-aggressive NAB rats. Taken together, aggressive behavior in young virgin female rats is partly dependent on trait anxiety, and appears to be under considerable OXT control.

Long-term programming of enhanced aggression by peripuberty stress in female rats

Human literature has linked adverse early life experiences with an increased risk to develop violent behaviors in both boys and girls. We have previously shown that male rats submitted to stress during the peripuberty period display as adults abnormal aggressive behavior against both male intruders and female partners. In the present study, we examined whether the same stress protocol would affect the development of aggressive behaviors in female rats. We evaluated the behavior of these peripuberty stressed female rats when confronted, at adulthood, with either female or male intruders, and during their cohabitation with male partners. Given that estrus cycle influences mood and aggressive behaviors, female aggressive behavior was assessed at different estrus cycle phases: estrus and diestrus, and during pregnancy and lactancy. Additionally, we evaluated postpartum plasma levels of vasopressin, oxytocin and corticosterone, hormones associated with aggression and the regulation of social behavior. Compared to control females, females submitted to stressful events during puberty exhibited higher and more sustained rates of aggression during adulthood independently on the estrus cycle or the sex of the intruder, and they had higher levels of plasma vasopressin. Significant correlations between plasma levels of vasopressin and corticosterone and aggressive behavior were also found. Strikingly, our results showed opposite intragroup correlations suggesting a different role of these hormones on aggression depending on life experiences. We provide here an animal model, devoid of cultural influences strongly supporting a role for biological factors in the development of aggressive behaviors following exposure to stressful events at puberty in females.

Sex differences in benzodiazepine binding in the frontal cortex and amygdala of the rat 24 hours after restraint stress

Marked sex differences have been reported in behavioural responses of rats 24 h after exposure to a brief period of restraint (RT) stress. In the present study, differences in benzodiazepine (BZ) binding between male and female rat litter-mates randomly allocated to control or RT groups were investigated 24 h after RT. Scatchard analysis, using [3H] flunitrazepam, was carried out on the the frontal cortex and amygdala. In the frontal cortex, females had a significantly lower affinity and a greater number of BZ receptors than males; males, but not females, showed increased affinity after RT. In the amygdala, there was a tendency towards a greater number of BZ receptors in females, with no effect of RT on receptor number or affinity. These results provide evidence of sex differences in BZ binding both under basal conditions and 24 h after RT, which could contribute to the behavioural sex differences already reported.

Effects of single restraint on the defensive behavior of male and female rats

The effects of single aversive stimulation due to restraint (RT) on behavioral responses to unfamiliar conspecifics were studied in male and female rats. The Resident-intruder paradigm was adopted, RT animals and their controls playing the role of intruders. Introductory and agonistic behaviors of both intruders and residents were recorded. In males, RT increased both the number of subjects which showed freezing and freezing duration, and this was independent of the amount of aggression received by the residents. By contrast, no change was found in active defense. Increased passive defense was not paralleled by a complete inhibition of aggression. The latter was rare, but not absent, and occurred in RT males as often as in their controls. Females never showed freezing and, unlike males, resorted to a fully active defensive strategy. RT females were the preferential targets of residents' high-intensity aggression, but showed the same rate of defensive responding as control females. The crucial role played in studies of social behavior by testing conditions and mutual influences between the behavior of experimental subjects and residents are discussed.