Effects of prenatal stress on behavioural and neurodevelopmental outcomes are altered by maternal separation in the neonatal period.

BACKGROUND

Chronic psychosocial stress during pregnancy and/or after birth, and the associated elevation in cortisol, is linked with the onset of behavioural disorders in childhood. Previously, prenatal stress has been shown to reduce neurosteroid pathways in the fetus and the levels of the neurosteroid and GABA receptor agonist, allopregnanolone. In late gestation, elevated levels of GABAergic activity increases inhibitory tone and protects against excessive excitation. These levels of allopregnanolone may also contribute to promoting myelination, thus stress-induced suppression of protective neurosteroid levels may disrupt neurodevelopmental processes and can result in reduced myelination. The objective of this study was to examine whether prenatal and postnatal stress reduces levels of inhibitory pathways to result in behavioural, myelin, and GABAergic/glutamatergic pathway deficits in the hippocampus at a postnatal time point in the guinea pig equivalent to childhood in humans.

METHODS

Pregnant guinea pig dams were exposed to prenatal stress (PRE) with strobe light exposure for 2 h/day on gestational age (GA) 50, 55, 60 and 65 (term is ∼GA70), with postnatal stress (POST) caused by maternal separation for 2 h/day from postnatal day (PND) 1-7), or a double-hit of both stressors (PRE + POST). Control dams and offspring groups (CON) were handled at the same time each day without causing stress. Behavioural outcomes were assessed using open field and elevated plus maze testing on PND27. After euthanasia on PND30, plasma samples were collected for steroid quantification of cortisol, allopregnanolone and progesterone by ELISA. Hippocampal samples were collected to assess markers of oligodendrocyte development and mature cells by myelin basic protein (MBP) immunostaining and GABAergic and glutamatergic pathway component gene expression by real time PCR.

RESULTS

Male guinea pig offspring exposed to prenatal stress exhibited hyperactive-like behaviour at childhood equivalence, while female offspring displayed anxious-like behaviour, to a lesser extent. In both sexes, MBP immunostaining was significantly decreased in the hippocampal region following prenatal stress, despite normal levels of MBP mRNA, which suggests a disruption to the MBP protein translation pathway. Many components of the GABAergic and glutamatergic pathways were disrupted following prenatal stress, notably GABA receptor subunits, GABA production and uptake, glutamate ionotropic and metabotropic receptor subunits and glutamate transport. Following prenatal + postnatal stress, many of the behavioural and neurodevelopmental deficits were improved compared to the prenatal stress only group.

CONCLUSION

We conclude that prenatal stress disrupts GABAergic and glutamatergic pathways that may contribute to reduced myelination and subsequent behavioural deficits in the offspring. The deficits seen following prenatal stress are ameliorated when paired with subsequent postnatal stress, which highlights the early postnatal period as an important treatment window.