Gender differences in short- vs. long-term impact of maternal depression following pre-gestational chronic mild stress.

Major Depressive Disorder (MDD) with Peripartum Onset was classified in 2013 by the Diagnostic and Statistical Manual, Fifth Edition (DMS-5) and approved in 2019 by the World Health Organization (WHO). These diagnostic revisions call for the development of new animal models of maternal depression, emphasizing the pregnancy period. We have recently described a novel rat model of maternal MDD with a Peripartum Onset. Exposure to pre-gestational chronic mild stress (CMS) with repeated restrain resulted in maternal depressive-like behavior and impacted offspring's neurodevelopment. The present study examined gender differences in short- vs. long-term neurodevelopmental impact of pre-gestational maternal stress. Stress response was assessed in Sprague Dawley CMS-exposed dams (n=7) by metabolic, hormonal, and behavioral changes and compared to controls dams (n=7). Short-term impact of maternal stress on offspring was examined in terms of metabolic, neurodevelopmental, and behavioral tests in male (n=40) and female (n=35) adolescent offspring on a postnatal day (PD) 48; the long-term impact was assessed in adult male (n=13) and female (n=12) offspring on PD 225. Brain tissue was collected from adolescent and adult offspring for biochemical analysis. Maternal stress was associated with decreased body weight and increased urinary corticosterone during the pre-pregnancy period, but depressive-like behavior was delayed until later in pregnancy. No significant neurodevelopmental changes in suckling male or female offspring derived from the stress-exposed dams were observed. However, adolescent male and female offspring of stress-exposed dams displayed an increased depressive-like behavior and gender-dependent increase in anxiety-like behavior in female offspring. These changes were associated with a brain-region-specific increase in brain-derived neurotrophic factor (BDNF) protein and BDNF receptor (TrkB) mRNA in males. Behavioral changes observed in the adolescents receded in adult male and female offspring. However, plasma BDNF was elevated in stress-exposed adult female offspring. These results suggest that pre-gestational maternal stress is associated with gender-dependent short- vs. long-term neurodevelopmental impact in the offspring. Presented data are of significant public health relevance, and there is an urgent need for further research to confirm these findings and probe the underlying mechanisms.

A rat model to study maternal depression during pregnancy and postpartum periods, its comorbidity with cardiovascular diseases and neurodevelopmental impact in the offspring.

This study aimed to develop an animal model of human depression during pregnancy and lactation to examine the effect of maternal, perinatal depression on offspring development. Maternal depression during pregnancy affects up to 20% of women and is a risk factor for both the developmental and long-term health issues. It is often comorbid with the cardiovascular disease (CVD) that affects the uteroplacental circulation and impacts offspring development. More than half of the expecting mothers with depression use antidepressants that cross the placenta and may interfere with the neurodevelopmental programming. Thus, depressed pregnant mothers face a difficult choice whether "to use or not to use" antidepressant therapy, since both untreated depression and antenatal antidepressant exposure present increased risks of neurodevelopmental pathologies. The ongoing clinical debate presents inconclusive data, while the existing animal models of maternal depression do not include early gestational periods, and, do not monitor depressive-like behavior nor address the cardiovascular abnormalities. The presented model includes pregestational depressive behavior extending into pregnancy and lactation, periods that have not been previously examined. Rat dams exposed to pre-gestational chronic mild stress (CMS) developed a sustained decrease in self-grooming behavior, correlated with hormonal, behavioral, and cardiac changes persisting through the postpartum period. Preliminary data indicate neurodevelopmental delays, behavioral and cardiac abnormalities, and altered levels of both the brain and the heart markers in the offspring of stressed dams. Furthermore, the preliminary data predict that maternal pregnancy during the perinatal period is likely to impact the neurodevelopmental process in a sex-dependent manner. Thus the presented here model (PG-LAC CMS) fulfills both the face and the construct validity criteria for maternal stress-induced depression during pregnancy and postpartum that may facilitate further studies of the relative risks of untreated vs. antidepressant-treated maternal depression during pregnancy to the mother and her offspring.