Intervention with the mother-infant relationship reduces cell proliferation in the Locus Coeruleus of female rat pups.

The Locus Coeruleus (LC) is a noradrenergic nucleus involved in several neuroendocrine and behavioral functions. During the neonatal period, the LC is critical for olfactory learning. Full development occurs during the early postnatal period. Environmental interventions after birth may affect neurogenesis. In rats, the neonatal handling procedure has been used as a model to analyze the effects of environmental intervention early in life. It has been related to several long-lasting behavioral and neuroendocrine changes. The present study analyzed the effects of handling on the number of neurons, cellular proliferation, and apoptosis in the LC of 11-day-old female rats. Wistar rat pups were submitted to brief maternal separation followed by handling (1 min per day from postnatal day [PND] 1 to 10). On PND 11, the LC was analyzed using immunohistochemistry for NeuN and BrdU, TUNEL staining, and electron microscopy. The intervention reduced the number of neurons in the LC but showed no significant change in the number of apoptotic cells, as measured by the TUNEL technique. However, the number of proliferating cells was significantly lower in the handled rat pups as compared with the nonhandled ones. This study demonstrates that the infant LC is sensitive to changes in maternal behavior. A seemingly mild environmental intervention during the neonatal period may reprogram the development of the LC, altering cell proliferation. (PsycINFO Database Record

Oxytocin modulates social interaction but is not essential for sexual behavior in male mice.

Recently, several studies have shown different conclusions regarding the effect of oxytocin (OT) on the social behaviors of male mice. Most of these studies used exogenous OT, but currently, investigations of the neural bases of social behavior are increasingly employing gene inactivation. This study aimed to analyze the role of OT in the modulation of social behaviors (i.e., sexual and social interaction behaviors) in male mice with selective deletions of the OT gene (OTKO) and the influence of this deletion in basal vasopressin (AVP) plasma concentrations. Our results showed that in the social interaction test, OTKO mice exhibited lower levels of social behaviors and higher levels of non-social behaviors compared to the wild type (WT) group. Additionally, the OTKO group showed a decrease in the number of agonistic behaviors delivered, and consequently, their dominance score was lower than that of the WT group. In the ethological analysis, the OTKO group had a lower aggressive performance and increased social investigation than the WT group. No significant differences were observed in the sexual behavior between groups. Finally, we found lower AVP plasma concentrations in the OTKO compared with the WT group. In conclusion, our data suggest that OT modulates social investigation behavior and the aggressiveness of male mice. The decrease in AVP concentrations in the OTKO group allows us to infer that AVP is physiologically relevant to these behavioral modulations. However, sexual behaviors do not seem to be affected by the lack of OT or by a decrease in the AVP concentration.

Progesterone and maternal aggressive behavior in rats.

Females usually display low levels of aggressiveness; however, during lactation, the aggressive behavior against intruders to the nest area is an important component of the maternal behavioral repertoire. The present study aimed to analyze the influence of progesterone (P4) on the maternal aggressive behavior in rats. Lactating rat were ovariectomized on the first day after delivery and, on the 6th postpartum day, aggressive behaviors against a male intruder were recorded. Also in the 6th PPD, the effects of a P4 receptor antagonist (RU 486) as well as of finasteride - which inhibits the conversion of P4 to its metabolite allopregnanolone - on the aggressive behavior of non-ovariectomized lactating rats were analyzed. Finally, plasma concentration of prolactin was measured on the 8th PPD. This study shows, for the first time, that ovariectomy just after parturition reduces some aspects of the maternal behavior (frequency of licking) and the aggressive behavior and increased plasma prolactin. On the other hand, the administration of RU486 induced a marked increase in the aggressiveness of lactating females. No changes were detected after finasteride injection. Gonadal hormones after parturition seem necessary for the development of maternal aggressive behavior. Furthermore, our results suggest that the increase in P4 levels throughout the postpartum period could be one of the causes for the natural reduction of the aggressive behavior in lactating rats.