Project description:The developing brain is particularly sensitive to ethanol during the brain growth spurt or synaptogenesis (third human trimester equivalent). This has been shown to lead to abnormal brain development and behavioural changes in the adult mouse that are relevant to those seen in humans with fetal alcohol spectrum disorders (FASD). We evaluated the long-term (postnatal day 60 young adult) gene expression changes that occur in the brain due to ethanol exposure during synaptogenesis. We used microarray analyses to evaluate the changes in brain gene expression at postnatal day 60 that occur due to ethanol treatment at postnatal days 4 and 7 (synaptogenesis). To generate samples, C57BL/6J pups were injected with ethanol (experimental) or saline (control) at postnatal days 4 and 7. Pups were weaned at postnatal day 25 and sacrificed at postnatal day 60. Total RNA was extracted from whole brain tissue and RNA from three male mice from three different litters were pooled as one biological replicate. Each male ethanol-treated mouse represented in a sample was matched by a control littermate present in a control sample. This study consists of two biological replicates for each experimental group (total mice used was n=12).

Project description:The developing brain is particularly sensitive to ethanol during the brain growth spurt or synaptogenesis (third human trimester equivalent). This has been shown to lead to abnormal brain development and behavioural changes in the adult mouse that are relevant to those seen in humans with fetal alcohol spectrum disorders (FASD). We evaluated the acute (4h post-treatment) gene expression changes that occur in the brain due to ethanol exposure during synaptogenesis (postnatal day 7). We used microarray analyses to evaluate the changes in brain gene expression at postnatal day 7 that occur due to ethanol treatment at postnatal day 7 (synaptogenesis).

Project description:The developing brain is particularly sensitive to ethanol during the brain growth spurt or synaptogenesis (third human trimester equivalent). This has been shown to lead to abnormal brain development and behavioural changes in the adult mouse that are relevant to those seen in humans with fetal alcohol spectrum disorders (FASD). We evaluated the long-term (postnatal day 60 young adult) gene expression changes that occur in the brain due to ethanol exposure during synaptogenesis. We used microarray analyses to evaluate the changes in brain gene expression at postnatal day 60 that occur due to ethanol treatment at postnatal days 4 and 7 (synaptogenesis).

Project description:Gene expression was analysed in the colon and brain of normal rat pups from late prenatal through early postnatal development. Tissue was isolated from pups one day prior to the anticipated date of birth and throughout the suckling period until the end of weaning.

Project description:Moderate alcohol consumption during pregnancy can result in a heterogeneous range of neurobehavioural and cognitive effects, termed fetal alcohol spectrum disorders (FASD). We have developed a mouse moder of FASD that involves moderate ethanol exposure throughout gestation achieved by voluntary maternal consumption. This model results in phenotypes relevant to FASD. Since ethanol is known to directly affect the expression of genes in the developing brain leading to abnormal cell death, changes to cell proliferation, migration, and differentiation, and potential changes to epigenetic patterning, we hypothesize that this leaves a long-term footprint on the adult brain. However, the long-term effects of prenatal ethanol exposure on brain gene expression, when behavioural phenotypes are apparent, are unclear. We used two independent microarray experiments and focused on the genes identified by both to evaluate the genome-wide alterations to the adult brain transcriptome caused by prenatal ethanol exposure via moderate maternal drinking. To generate samples, two independent groups of female C57BL/6J mice were given access to 10% ethanol in water or water only. Control females had access to water only. Females were mated and continued to drink from gestational day 0 to pup postnatal day 10. Whole brain RNA from adult (postnatal day 70) male ethanol-exposed offspring was extracted. For experiment 1, RNA samples from three mice were pooled to reduce litter effects and the pooled samples were hybridized on Affymetrix arrays (2 control and 2 ethanol chips, total n=12 mice). For experiment 2, RNA from two mice were pooled per chip and three arrays per treatment were used (3 control, 3 ethanol, total n=12 mice).

Project description:We report the miRNA-Seq and Nanostring mRNA data from regional brain samples after neonatal hypoxic-ischemic brain injury (induced by unilateral carotid artery ligation and 30 minutes at 8% oxygen in CD1 mice at postnatal day 9). Analyses are perfomed in the cerebellum, striatum/thalamus, and whole cortex. Examination of regional small RNA expression between four postnatal day 9 mouse pups after hypoxic-ischemic brain injury versus four sham surgery controls

Project description:Lead exposure causes a variety of health effects, especially in children, that may include cognitive and behavioural problems. This study explores the mechanisms associated with this relationship by assessing alterations in gene expression of C57BL/6J pups treated with 50mg/kg lead compared to controls. In addition this study also analyzed brain gene expression differences in Metallothionein I and II (Mt-I and Mt-II) knockout mice treated with lead. Pups of three genotypes (C57BL/6J, Mt-KO with a C57BL/6J background and Heterozygote Mt-KO) were injected with lead acetate during synaptogenesis and weight-matched controls were injected with saline at the same time points. Whole brains were harvested and RNA extracted and pooled from 5 pups and hybridized to Mouse Genome 430 2.0 Arrays. In total 6 arrays were used, one for each genotype and treatment.

Project description:Whole brain expression data from postnatal day 7-aged mice exposed to ethanol at postnatal day 7

Project description:An established limited-bedding paradigm was used to induce early-life stress in mouse pups. The hippocampus was harvested at postnatal day 21 and from adults and a non-nuclear fraction prepared for quantitative proteomic analyses using isobaric tags for relative and absolute quantitation (iTRAQ).

Project description:Moderate alcohol exposure during pregnancy can result in a heterogeneous range of neurobehavioural and cognitive effects, termed fetal alcohol spectrum disorders (FASD). We have developed a mouse model of FASD that involves moderate ethanol exposure throughout gestation achieved by voluntary maternal consumption. This model results in phenotypes relevant to FASD. Since ethanol is known to directly affect the expression of genes in the developing brain leading to abnormal cell death, changes to cell proliferation, migration, and differentiation, and potential changes to epigenetic patterning, we hypothesize that this leaves a long-term footprint on the adult brain. However, the long-term effects of prenatal ethanol exposure on brain gene expression, when behavioural phenotypes are apparent, are unclear. We used a microarray experiment and focused on the genes identified by both to evaluate the genome-wide alterations to the adult brain transcriptome caused by prenatal ethanol exposure. To generate samples, female C57BL/6J mice were given ethanol injections (2.5g/kg of ethanol in saline) twice on gestational days 8 and 11 to produce acute ethanol exposure effects. Control females were injected with the same volume of saline. Females were mated. Whole brain RNA from adult (postnatal day 70) male ethanol-exposed offspring was extracted. RNA samples from three mice were pooled to reduce litter effects and the pooled samples were hybridized on Affymetrix arrays (2 control and 2 ethanol chips, total n=12 mice).