Acute neuroinflammation elicited by TLR-3 systemic activation combined with early life stress induces working memory impairments in male adolescent mice.

Toll-like Receptors (TLRs) are implicated with the pathogenesis of cognitive impairment induced by inflammation. Early life stress is associated with altered trajectories of neuroimmune signaling with implications for cognitive development. However, effects of TLR-3 activation on early life stress-related cognitive outcomes are understudied. We investigated the effects of maternal separation (MS) during postnatal development and a viral immune challenge during adolescence on working memory performance. BALB/c mice exposed to MS were separated from their dams daily for 180-min from postnatal day (PND) 2 to 15. At PND 45, animals were challenged with a single i.p. injection of either Poly (I:C) or sterile saline, and then subjected to a spatial working memory test in a Y-maze apparatus. Gene expression was determined by qPCR. Protein levels of oxidative stress markers were also assessed. A single peripheral administration of a TLR-3 agonist was able to induce working memory impairments in adolescent mice exposed to MS. At a molecular level, exposure to MS was associated with lower mRNA levels of Tlr3 in the medial prefrontal cortex (mPFC). However, when MS animals were exposed to Poly (I:C), a more robust activation of Tlr3, Il6 and Nfkb1 gene transcription was observed in these mice compared with control animals. These modifications did not result in oxidative stress. Finally, higher mRNA levels of Nfkb1 in the mPFC were correlated with lower working memory performance, suggesting that altered NF-κB signaling might be related with poor cognitive functioning. These results have implications for how ELS affects neuroimmune signaling in the mPFC.

Postnatal impoverished housing impairs adolescent risk-assessment and increases risk-taking: A sex-specific effect associated with histone epigenetic regulation of Crfr1 in the medial prefrontal cortex.

While increasing evidence posits poor decision-making as a central feature of mental disorders, very few studies investigated the effects of early-life stress (ELS) on specific components of reward-related choice behaviors. Risk-taking (RT) involves the exposure to some danger, or negative consequences, in order to achieve a goal-directed behavior. Such behaviors are likely to be preceded by risk-assessment (RA), which is a dynamic cognitive process involving the acquisition of information in potentially dangerous situations. Here, we investigated the effects of being raised in impoverished housing conditions during early life (P2-P9) on RT, RA and dopaminergic and corticotrophinergic gene expression of adolescent male and female mice. Phenotypes were assessed by two protocols: the elevated plus-maze (EPM) and the predator-odor risk-taking (PORT). We found decreased RA in mice exposed to impoverished housing in the absence of a reward (EPM), with a more pronounced effect among females. Moreover, when exposed to a predatory olfactory cue, increased RT was observed in these females in a reward-related task (PORT), as well as decreased HPA axis responsivity. This sex-specific behavioral effect was associated with increased Crfr1 mRNA expression in the medial prefrontal cortex (mPFC) and higher levels of the histone mark H3R2me2s, a histone modification known to be involved in transcriptional activation, within the promoter of the Crfr1 gene. These findings revealed that ELS exposure can impair the acquisition of environmental information in dangerous situations and increase RT in reward-related scenarios among females, with an important role regarding epigenetic regulation of the Crfr1 gene.

Maternal behavior of the mouse dam toward pups: implications for maternal separation model of early life stress.

Maternal care is essential for an adequate pup development, as well as for the health of the dam. Exposure to stress in early stages of life can disrupt this dam-pup relationship promoting altered neurobiological and behavioral phenotypes. However, there is a lack of consensus regarding the effects of daily maternal separation (MS) on the pattern of maternal behavior. The aim of this study is to compare the patterns of maternal behavior between mice exposed to MS and controls. BALB/c mice were subjected to MS for a period of 180 min/day from postnatal day 2-7 (n = 17) or designated to be standard animal facility reared (AFR) controls (n = 19). Maternal behaviors were computed as frequency of nursing, licking pups and contact with pups, and nonmaternal behaviors were computed as frequency of actions without interaction with pups and eating/drinking. A total of 18 daily observations of maternal behavior were conducted during these six days, and considering the proportion of maternal and nonmaternal behaviors, an index was calculated. There was no difference when comparing the global index of maternal behavior between the AFR and MS animals by the end of the observed period. However, the pattern of maternal behavior between groups was significantly different. While MS dams presented low frequency of maternal behavior within the first couple days of the stress protocol, but increasing over time, AFR dams showed higher maternal behavior at the beginning, reducing over time. Together, our results indicate that MS alters the maternal behavior of the dams toward pups throughout the first week of the stress protocol and provoked some anxiety-related traits in the dams. The inversion of maternal behavior pattern could possibly be an attempt to compensate the low levels of maternal care observed in the first days of MS.

NFκB1 and NFκB2 gene expression in the prefrontal cortex and hippocampus of early life stressed mice exposed to cocaine-induced conditioned place preference during adolescence.

Neuro-immune pathways contribute to the onset and maintenance of cocaine-seeking behaviors, particularly through activation of NFκB signaling in the brain. However, the molecular mechanisms of this relationship are still not completely understood, especially considering the effects of early life stress, a major risk factor to cocaine addiction. The goal of this study was to investigate NFκB1 and NFκB2 gene expression in the prefrontal cortex (PFC) and hippocampus of mice exposed to early life stress and cocaine-induced conditioned place preference (CPP) within adolescence. Male BALB/c mice were randomly assigned to one of four groups: animal facility reared (AFR) with or without CPP training; maternal separation (MS) with our without CPP training. The MS animals were subjected to daily 3-h maternal separation from postnatal day (PND) 2 to 15. CPP was performed following three sequential phases: habituation (PND 34), conditioning (PND 35 to PND 44) and post-conditioning test (PND 45). Gene expression was determined by qPCR. NFκB1 mRNA levels were decreased in the PFC of animals exposed to CPP compared to drug-naïve animals, while no difference was detected regarding rearing conditions. NFκB2 expression was upregulated in the PFC of animals exposed to CPP when compared to drug-naïve animals, particularly in animals exposed to MS with higher CPP scores. No significant effects were detected in the hippocampus. Cortical NFκB2 up-regulation may be involved with the enhanced motivational salience for cocaine-paired cues observed in animals exposed to MS during adolescence.

Maternal separation induces hippocampal changes in cadherin-1 (CDH-1) mRNA and recognition memory impairment in adolescent mice.

In rodents, disruption of mother-infant attachment induced by maternal separation (MS) is associated with recognition memory impairment and long-term neurobiological consequences. Particularly stress-induced modifications have been associated to disruption of cadherin (CDH) adhesion function, which plays an important role in remodeling of neuronal connection and synaptic plasticity. This study investigated the sex-dependent effect of MS on recognition memory and mRNA levels of classical type I and type II CDH and the related ß -catenin (ß -Cat) in the hippocampus and prefrontal cortex of late adolescent mice. We provided evidence that the BALB/c mice exposed to MS present deficit in recognition memory, especially females. Postnatal MS induced higher hippocampal CDH-2 and CDH-8 mRNA levels, as well as an upregulation of CDH-1 in the prefrontal cortex in both males and females. MS-reared female mice presented lower CDH-1 mRNA levels in the hippocampus. In addition, hippocampal CDH-1 mRNA levels were positively correlated with recognition memory performance in females. MS-reared male mice exhibited higher ß -Cat mRNA levels in the hippocampus. Considering sex-specific effects on CDH mRNA levels, it has been demonstrated mRNA changes in CDH-1, ß -Cat, and CDH-6 in the hippocampus, as well as CDH-1, CDH-8 and CDH-11 in the prefrontal cortex. Overall, these findings suggest a complex interplay among MS, CDH mRNA expression, and sex differences in the PFC and hippocampus of adolescent mice.

Running during adolescence rescues a maternal separation-induced memory impairment in female mice: Potential role of differential exon-specific BDNF expression.

Exposure to early life stress has been associated with memory impairments related to changes in brain-derived neurotrophic factor (BDNF) signaling. However, the potential impact of physical exercise to reverse these effects of maternal separation has been under investigated. Mice were subjected to maternal separation during the first 2 weeks of life and then exposed to a 3-week running protocol during adolescence. The spontaneous object recognition task was performed during adolescence followed by analysis of hippocampal expression of exons I, IV, and IX of the BDNF gene. As expected, maternal separation impaired recognition memory and this effect was reversed by exercise. In addition, running increased BDNF exon I expression, but decreased expression of BDNF exon IV in all groups, while exon IX expression increased only in MS animals exposed to exercise. Our data suggest that memory deficits can be attenuated by exercise and specific transcripts of the BDNF gene are dynamically regulated following both MS and exercise.

Increased cocaine-induced conditioned place preference during periadolescence in maternally separated male BALB/c mice: the role of cortical BDNF, microRNA-212, and MeCP2.

RATIONALE: Early life stress is a major risk factor for cocaine addiction; however, the underlying molecular mechanisms remain relatively unexplored. MicroRNA-212 (miR-212) and methyl CpG binding protein 2 (MeCP2) have recently emerged as key regulators of brain-derived neurotrophic factor (BDNF) signaling during the acquisition and maintenance of cocaine-seeking behaviors. OBJECTIVES: We therefore investigated the effect of maternal separation (MS) on cocaine-induced conditioned place preference (CPP) during periadolescence and how this influences miR-212, Mecp2, and Bdnf expressions in the prefrontal cortex. METHODS: Male BALB/c mice subjected to MS (3 h/day) from postnatal day 2 to 15 or normal animal facility rearing (AFR) were tested for CPP at postnatal day 45, or not exposed to experimental manipulations (drug-naïve animals). Cultured primary cortical neurons were used to determine miR-212 expression changes following depolarization by KCL treatment. RESULTS: MS increased cocaine-induced CPP and decreased Bdnf exon IV expression, which correlated with higher CPP scores in such animals. An experience-dependent decrease in miR-212 expression was observed following CPP test. This effect was mimicked in primary cortical neurons in vitro, under activity-dependent conditions. In contrast, increased Mecp2 expression was found after CPP test, suggesting an opposing relationship between miR-212 and Mecp2 expression following cocaine place preference acquisition. However, these effects were not present in mice exposed to MS. CONCLUSIONS: Together, our results suggest that early life stress can enhance the motivational salience for cocaine-paired cues during periadolescence, and that altered expression of miR-212, Mecp2, and Bdnf in the prefrontal cortex is involved in this process.