Skip to main content
SLU publication database (SLUpub)

Research article2009Peer reviewed

Differential effects of repeated long and brief maternal separation on behaviour and neuroendocrine parameters in Wistar dams

Eklund, Malin B.; Johansson, Linda M.; Uvnas-Moberg, Kerstin; Arborelius, Lotta

Abstract

Repeated, prolonged maternal separation has been suggested to model the development of a depression-like syndrome in rats. The long separations from the pups have been proposed to be stressful for the dams, which in turn could mediate the changes seen in adult offspring. In the present study we investigated whether prolonged maternal separation really is stressful for rat dams by studying parameters known to be affected by long-term stress such as spontaneous motor activity, anxiety-like behaviour, adrenal gland weight and plasma corticosterone levels. Dams were separated from their litter for either 4h (MS240) or 15 min (MS15) on eight random days during postnatal day 1-14, or left undisturbed (animal facility reared, AFR). After weaning MS240 dams showed decreased peripheral activity and habituated slower in horizontal activity. On the contrary, MS15 dams showed more peripheral activity and less rearing activity compared to both AFR and MS240 dams when habituated to the testing apparatus, suggesting that MS15 dams are more anxious. The adrenal glands from MS15 dams weighed significantly less and plasma corticosterone levels were significantly higher compared to AFR and MS240 dams. These results suggest that repeated brief maternal separations from pups could be stressful for rat mothers, whereas prolonged separations are not. Since these results are in contrast to the current notion that the short separation procedure may be considered as a safe milieu, whereas the prolonged separations have been suggested to be stressful for both dams and pups, further studies in this field are warranted. (C) 2009 Elsevier B.V. All rights reserved.

Keywords

Early environment; Anxiety-like behaviour; Spontaneous motor activity; Hypothalamic-pituitary-adrenal axis; Corticosterone; Stress

Published in

Behavioural Brain Research
2009, Volume: 203, number: 1, pages: 69-75
Publisher: Elsevier