Project description:prenatal stress response, genetic modification Background: Prenatal stress (PS) exposure has been shown to increase the risk for emotional disorders in later life. Furthermore, the serotonin transporter (5-HTT) genotype is suggested to exert a modulating effect on the association between early life stress and the risk for depression. In the present study, we use a 5-HTT x PS paradigm to investigate whether the effects of PS are dependent upon the 5-HTT genotype. Methods: The effects of PS on cognition, anxiety- and depression-related behaviour were examined using a maternal restraint stress paradigm of PS in C57BL6 wild-type (WT) and heterozygous (+/-) 5-HTT knockout mice. Additionally, in the female offspring, a genome-wide hippocampal gene expression screening was performed. Results: 5-HTT +/- offspring showed enhanced memory performance and signs of reduced anxiety as compared to WT offspring. Conversely, exposure of 5-HTT +/- mice to PS was associated with altered stress-responsivity and increased depressive-like behaviour, particularly in female offspring. Further, 5-HTT genotype, PS and their interaction differentially affected the expression of numerous genes and related pathways within the female hippocampus. Specifically, MAPK and neurotrophin signalling were regulated by both the 5-HTT +/- genotype and PS exposure, whereas cytokine and Wnt signalling were affected in a 5-HTT genotype x PS manner, indicating a gene x environment interaction at the molecular level. Conclusions: The long-term behavioural effects of PS in C57BL6 mice are partly dependent on the 5-HTT genotype. Further, hippocampal gene expression profiles suggest that distinct molecular mechanisms mediate the behavioural effects of the 5-HTT genotype, PS exposure, and their interaction.

Project description:The amygdala is a prominent region of the brain processing stress-related emotion and vigilance. Additionally it is known that the serotonergic system is strongly involved in stress response and adaptation. The serotonin transporter (5-HTT) as key regulator of serotonergic activity in the brain is associated with stress-related neuropsychiatric disorders as well as heightened trait anxiety/dysphoria and exaggerated response to fear and environmental stress in humans. Also 5-HTT knockout mice display increased anxiety- and depression-related behaviors, altered stress reactivity and stress-coping abilities, gene expression differences and altered dendritic morphology. We measured immediate reactions to an acute stressor in 5-HTT knockout mice vs. wildtypes using microarrays for genome wide gene expression profiling in the amygdala and identified different functional clusters dependent on condition and genotype. Global amygdalar gene expression profiles were compared between 5-HTT knockout vs. wildtype mice in the conditions control vs. acute stressor in a total sample of 20 (5 biological replicates per genotype and condition).

Project description:The amygdala is a prominent region of the brain processing stress-related emotion and vigilance. Additionally it is known that the serotonergic system is strongly involved in stress response and adaptation. The serotonin transporter (5-HTT) as key regulator of serotonergic activity in the brain is associated with stress-related neuropsychiatric disorders as well as heightened trait anxiety/dysphoria and exaggerated response to fear and environmental stress in humans. Also 5-HTT knockout mice display increased anxiety- and depression-related behaviors, altered stress reactivity and stress-coping abilities, gene expression differences and altered dendritic morphology. We measured immediate reactions to an acute stressor in 5-HTT knockout mice vs. wildtypes using microarrays for genome wide gene expression profiling in the amygdala and identified different functional clusters dependent on condition and genotype.

Project description:The serotonin transporter (5-HTT) gene-linked polymorphic region has been suggested to play a modulatory role in mediating the effects of early-life stress on psychopathology rendering carriers of the low-expression short (s)-allele more vulnerable to environmental adversity in later life. Here we analyzed the effects of prenatal stress (PS), 5-Htt genotype, and an interactin of both on DNA methylation in the hippocampi of female C57BL/6 mice. Here, we applied Methylated DNA ImmunoPrecipitation (MeDIP) in a maternal restraint stress paradigm to perform a global promoter DNA methylation screen: Hippocampal DNA of wild type and 5-Htt +/- mice in stressed and control environments were analyzed to define genotype- (G) and environment-dependent (E) as well as GxE-interactive effects on promoter DNA methylation in the brain region, where marked effects were expected. MeDIP-based promoter DNA methylation screen

Project description:The serotonin transporter (5-HTT) gene-linked polymorphic region has been suggested to play a modulatory role in mediating the effects of early-life stress on psychopathology rendering carriers of the low-expression short (s)-allele more vulnerable to environmental adversity in later life. Here we analyzed the effects of prenatal stress (PS), 5-Htt genotype, and an interactin of both on DNA methylation in the hippocampi of female C57BL/6 mice. Here, we applied Methylated DNA ImmunoPrecipitation (MeDIP) in a maternal restraint stress paradigm to perform a global promoter DNA methylation screen: Hippocampal DNA of wild type and 5-Htt +/- mice in stressed and control environments were analyzed to define genotype- (G) and environment-dependent (E) as well as GxE-interactive effects on promoter DNA methylation in the brain region, where marked effects were expected.

Project description:Prenatal stress (PS) could cause depression of offprsing. Here, relative quantitative phosphoproteomics of hippocampus of PS-S and CON offspring rats were performed using LC-MS/MS to confirm known pathways and identify new areas of depression. A total of 6,790 phosphopeptides, 9,817 phosphorylation sites and 2978 phosphoproteins were detected. Among the 2978 phosphoproteins, 1760 (59.09%) with more than two phosphorylated sites, ENSRNOP00000023460 protein has more than 117 phosphorylated sites, and the average distribution of modification sites per 100 amino acids was 2.97. There were 197 different phophpeptides, including 140 increased phosphopeptides and 57 decreased phosphopeptides in PS-S offspring rats when compared to the CON offspring rats. These differential phosphopeptides corresponded to 100 upregulated and 44 downregulated phosphoproteins respectively. GO enrichment analysis these different phosphoproteins in the first five enrichments of CC category, MF category and BP category were involved in a total of 35 different phosphoproteins and these phosphoproteins were mainly related to myelin, microtubule and synapse associated proteins. The first five enrichment of KEGG pathways were found to be involved in many essential biological pathways, and the first five pathways included amphetamine addiction, insulin secretion, cushing syndrome and circadian entrainment signaling pathway. And these first five pathways were related to nine proteins including Adcy9, Apc, Cacna1c, Camk2a, Camk2b, Camk2g, Ctnnd2, Grin2a, Stx1a. Further research is needed to understand the precise role of these pathways in the depressive-like behavior of offspring rats caused by PS.

Project description:We demonstrated that the offspring of depressed fathers display reduced resilience to stress and enhanced susceptibility to depression. To explain the observed behavioural phenotypes of depression in offspring produced by depressed fathers, molecular profiling was performed in key brain regions.We examined the hippocampal sample from normal male mice, stress induced depressive male mice and male offspring born to stress-induced depressed male mice by RNA sequencing.

Project description:The goal of this study was to compare transcriptional profiles of the amygdala from control and (PS) prenatally stressed male and female offspring to elucidate sex-specific molecular mechanisms underlying behavioral and neuroendocrine abnormalities observed after in-utero psychosocial stress exposure. Amygdalar mRNA profiles of 28 day old control and PS male and female mice were generated by preparing sequencing libraries using the NEBNext Ultr II Directional RNA Library Prep Kit for Illumina. After indexing, enrichment through 8 cycles of PCR, and passing initial quality control metrics, individually indexed and compatible libraries were proportionally pooled and sequenced using Nextseq 550 sequencer. The sequencing setting of single read 1 × 85 bp to generate ∼50 M reads per sample was used. Differentially expressed genes (DEGs) were analyzed using RUVseq and EdgeR. Results were validated via qPCR We find psychosocial PS results in the emergence of anxiety-like behaviors, an altered behavioral coping strategy to stress, and anhedonia in male and female offspring. Neuroendocrine abnormalities, evidenced by acute stress-induced HPA axis hyperactivity, are only observed in PS female offspring. Our RNA-seq analysis reveals these phenotypic changes in PS offspring to be associated with sex-specific disturbances in genes associated with synaptic transmission, including genes associated with glutamatergic and GABAergic signaling in PS males, and upregulation of DBH, known to regulate NE synthesis, in PS females. Our study represents one of the first detailed analysis of amygdalar transcriptomes generated by RNA-seq comparing control vs prenatally stressed offspring, identifying sex-specific changes in response to in-utero psychosocial stress exposure.

Project description:Environmental changes may alter gene expression in depression and anxiety disorders through epigenetic regulation, including small non-coding RNAs (sncRNAs) and their major subclass, microRNAs (miRNAs). However, underlying mechanisms mediating miRNA regulation in response to changing environmental stimuli are unclear. Using the serotonin transporter (5-HTT) knockout (KO) mouse model of depression/anxiety, this study aimed to compare the effects of voluntary exercise versus chronic treatment with the stress hormone, corticosterone, on miRNA transcriptome and proteome. Using high-throughput sequencing of miRNAs and mass spectrometry (MS)-based approaches for protein expression, we described 337 differentially expressed (DE) miRNAs and 67 proteins in 5-HTT KO mice compared to wild-type (WT) control mice in standard-housing conditions. After exercise, there were 200 DE miRNAs and 3 DE proteins in WT mice, and 20 DE miRNAs and 95 DE proteins in 5-HTT KO mice, while corticosterone treatment led to 168 DE miRNAs and 1 DE protein in WT, and 21 DE miRNAs and 21 DE proteins in 5-HTT KO mice. Serotonergic dysfunction (due to the 5-HTT KO gene mutation) induced altered expression of miRNAs and proteins involved in regulation of neurodevelopment, neurogenesis and neuroinflammatory responses. Elevation of the stress hormone corticosterone activated similar (to 5-HTT KO) molecules in WT mice, while exercise caused antidepressant-like effects. We suggest that these findings indicate that functional 5-HTT might be required for the beneficial effects of exercise on miRNA expression. Our study is the first to explore how gene-environment interactions affect miRNA/proteomics composition in a mouse model of depression/anxiety and extends our understanding of gene-environmental interactions underlying these affective disorders.

Project description:Maternal exposure to social stress during pregnancy is associated with an increased risk of psychiatric disorders in the offspring in later life. How the effects of maternal social stress are transmitted to the developing foetus is unclear. Using a rat model of maternal social stress during pregnancy, we explored the mechanisms by which maternal stress is conveyed to the foetus and the potential for targeted treatment to prevent disease in the offspring. Maternal stress induced oxidative stress in the placenta, but not in the foetal brain, which was prevented by a single administration of nanoparticle-bound antioxidant prior to the stress exposure. Moreover, this antioxidant treatment prevented prenatal stress-induced anxiety-like behaviour in juvenile male offspring, along with neurological and gene expression changes in the offspring brain. In vitro, placental conditioned medium or foetal plasma from stressed pregnancies caused changes to cultured cortical neurons, similar to those observed in the brains of juvenile offspring exposed to prenatal stress, and were found to contain altered levels of extracellular microRNAs but not corticosterone. The present study highlights the crucial role of the placenta, and molecules secreted from the placenta, in foetal brain development and provides evidence of the potential for treatment that can prevent maternal stress-induced foetal programming of neurological disease.