Abstract
Maternal separation has been shown to disrupt proper brain development and maturation, having profound consequences on the neuroendocrine systems in charge of the stress response, and has been shown to induce behavioral and cognitive abnormalities. At the behavioral level, maternal separation has been shown to increase offensive play-fighting in juvenile individuals and reduce social interest in adulthood. Since most of the studies that have evaluated the consequences of maternal separation on social behavior have focused on behavioral analysis, there is a need for a further understanding of the neuronal mechanisms underlying the changes in social behavior induced by maternal separation. Therefore, the aim of the present research was to assess the long-term effects of maternal separation on social interaction behavior and to assess the activity of several brain regions involved in the processing of social cues and reward upon social novelty exposure, using c-Fos immunohistochemistry as a marker of neuronal activity. Male Wistar rats were subjected to 4 h maternal separation during the neonatal period, 9:00 h–13:00 h from postnatal day 1 to 21, and exposed to social novelty during adulthood. After social novelty exposure, brains were fixed and coronal sections of the medial amygdala, lateral septum (LS), paraventricular nucleus of the hypothalamus, nucleus accumbens, and medial prefrontal cortex were obtained for c-Fos immunohistochemistry. Maternally separated rats spent less time investigating the novel peer, suggesting that maternal separation reduces social approach motivation. Furthermore, maternal separation reduced the number of c-Fos positive cells of the medial amygdala, paraventricular nucleus of the hypothalamus, LS, nucleus accumbens, and medial prefrontal cortex upon social novelty exposure. These findings suggest that maternal separation can reduce the plastic capacity of several brain nuclei, which constitute a physiological basis for the emergence of behavioral disorders presented later in life reported to be linked to early life adversity.
Highlights
Numerous studies have shown that early life adversity predisposes individuals to present psychopathologies with altered emotional, reward processing, and cognition deficits later in life (Costello et al, 2003; Green et al, 2010; Girardi et al, 2014; Birn et al, 2017; Novick et al, 2018), which are hypothesized to play a major role in the development of mental disorders (Dennison et al, 2017)
The number of cells was significantly higher in groups exposed to social novelty CS-SN and MS-SN compared with control groups CS-NT and MS-NT, but the number of c-Fos positive neurons was significantly lower in maternally separated rats exposed to social novelty MS-SN compared with non-maternally separated rats exposed to social novelty CS-SN
The number of c-Fos positive cells was significantly higher in groups exposed to social novelty CS-SN and MS-SN compared with the control groups CS-NT and MS-NT (F(3,149) = 110.51, P < 0.05; Figures 4C, 5), but the number of c-Fos positive cells was significantly lower in maternally separated rats exposed to social novelty MS-SN compared with non-maternally separated rats exposed to social novelty CS-SN
Summary
Numerous studies have shown that early life adversity predisposes individuals to present psychopathologies with altered emotional, reward processing, and cognition deficits later in life (Costello et al, 2003; Green et al, 2010; Girardi et al, 2014; Birn et al, 2017; Novick et al, 2018), which are hypothesized to play a major role in the development of mental disorders (Dennison et al, 2017). Parental deprivation of the biparental rodent Octodon degus suppresses synapse formation and dendritic growth within the orbitofrontal cortex in adults, but not in juvenile individuals (Helmeke et al, 2009)
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