Brief versus long maternal separation in lactating rats: Consequences on maternal behavior, emotionality, and brain oxytocin receptor binding.

Maternal separation is a widely used animal model to study early life adversity in offspring. However, only a few studies have focused on the impact of disrupting the maternal bond from the mother's perspective. Such studies reveal alterations in behavior, whereas the underlying neuroendocrine mechanisms remain largely unknown. In this study, we compared the consequences of daily brief maternal separation (BMS; 15 min) versus long maternal separation (LMS; 180 min) during the first week postpartum with respect to behavioral and neuroendocrine changes in lactating Sprague-Dawley dams. Mothers were tested for their maternal care before and after separation, maternal motivation to retrieve pups, as well as anxiety-related and stress-coping behaviors. In addition, we analyzed their basal plasma corticosterone levels and oxytocin receptor binding in selected brain regions of the limbic system and maternal network. LMS dams showed higher levels of behavioral alterations compared to BMS and non-maternally separated (NMS) dams, including increased licking and grooming of the pups and decreased maternal motivation. Anxiety-related behavior was not affected by either separation paradigm, whereas passive stress-coping behavior tended to increase in the LMS group. Plasma corticosterone concentrations were not different between groups. Oxytocin receptor binding was higher in the medial preoptic area and tended to be higher in the prelimbic cortex of LMS dams, only. Our results demonstrate that especially daily prolonged maternal separation impacts on the mothers' behavior and oxytocin system, which suggests that enhanced oxytocin receptor binding could be a compensatory mechanism for potentially decreased central oxytocin release due to limited pup contact.

The brain oxytocin and corticotropin-releasing factor systems in grieving mothers: What we know and what we need to learn.

The bond between a mother and her child is the strongest bond in nature. Consequently, the loss of a child is one of the most stressful and traumatic life events that causes Prolonged Grief Disorder in up to 94 % of bereaved parents. While both parents are affected, mothers are of higher risk to develop mental health complications; yet, very little research has been done to understand the impact of the loss of a child, stillbirth and pregnancy loss on key neurobiological systems. The emotional impact of losing a child, e.g., Prolonged Grief Disorder, is likely accompanied by dysregulations in neural systems important for mental health. Among those are the neuropeptides contributing to attachment and stress processing. In this review, we present evidence for the involvement of the brain oxytocin (OXT) and corticotropin-releasing factor (CRF) systems, which both play a role in maternal behavior and the stress response, in the neurobiology of grief in mothers from a behavioral and molecular point of view. We will draw conclusions from reviewing relevant animal and human studies. However, the paucity of research on the tragic end to an integral bond in a female's life calls for the need and responsibility to conduct further studies on mothers experiencing the loss of a child both in the clinic and in appropriate animal models.