Abstract

Reproductive experience in mammals produces significant neuroendocrine and behavioral changes that are necessary to ensure the survival of the mother and the young. Exposure to stress during postpartum may affect the proper development of maternal behaviors. The present study examined whether previous reproductive experience affects neurobehavioral responses in females exposed to mother–infant separation stress during the postpartum period (4.5 h/day for 3 weeks). Anxiety-like behavior and spatial learning were evaluated in nulliparous (NP), primiparous (PRI) and multiparous (MULT). In maternal animals (PRI and MULT), maternal behavior was also assessed. Cell survival and proliferation in the dentate gyrus, as well as BDNF expression in the hippocampus, were evaluated by immunohistochemistry as possible candidates for mediating brain plasticity in response to reproductive experience and stress. Anxiety-like behavior as measured on the open field test showed an increase in NP and PRI-stressed, while neither stressed nor unstressed MULT expressed this behavior. Maternal unstressed animals both PRI and MULT exhibited enhanced memory task performance in the Barnes maze. Multiparity increased cell proliferation and cell survival in female rats and these changes occurred independently of pup exposure. The expression of BDNF was higher in the CA1 area in MULT rats. Although multiparity protects the mother against some of the effects of maternal separation stress, promoting behaviors directed to the pups during the early postpartum, preventing anxiety-like behaviors and mitigating memory deterioration after weaning, the data showed that disrupting natural dam–pup interaction produced neurobiological consequences on the mother even with multiple reproductive experience.

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