Project description:To investigate the effect of soy peptides on gut microial composition during juvenile social isolation, group-house (GH) and social isolation (SI) mice were fed a diet consisting of soy peptides or a control diet for 4 weeks post-weaning. We then performed microbial community analysis using data obtained from bacterial 16S rRNA gene sequencing in the fecal samples of 4 mice groups (control diet-fed GH, soy peptide-diet fed GH, control diet-fed SI, and soy peptide-diet fed SI mice).

Project description:Chronic social defeat stress induces anhedonia-like behavior deficits. We demonstrated that mPFC NPAS is requred for chronic social defeat stress-induced deficits in the sucrose preference and effort-based reward seeking behavior. We conducted the RNA-seq analysis for differential expression genes in the mouse mPFC samples of AAV-mediated Npas4 shRNA expression tissue.

Project description:Purpose: This study assessed putative sex differences in miRNA expression in the bed nucleus of the stria terminalis (BNST)—a sexually dimorphic brain region implicated in anxiety—of adult male and female rats that had been exposed throughout adolescence to social isolation (SI) stress. Methods: Male and female Sprague-Dawley rats underwent SI during adolescence or remained grouped housed (GH) till adulthood. Small RNA sequencing was performed on tissue extracted from the anterodorsal BNST. Results: SI compared to GH induced more anxiogenic-like effects in females compared to males and sex-dependent changes in miRNA expression in the BNST. Conclusions: The current study shows that housing conditions (either SI or GH) during adolescence regulates miRNA expression in a sex-specific manner in the sexually dimorphic area of the adBNST

Project description:Background: Preterm infants are highly susceptible to white matter injury, in part due to exposure to perinatal inflammation and/or hypoxia. These insults dis_x0002_rupt oligodendrocyte (OL) lineage maturation, leading to impaired myelination and neurodevelopmental deficits; however, the underlying mechanisms remain incompletely understood. Methods: A dual-hit rat model was established to recapitulate key features of preterm brain injury. Myelination, behavior, and brain function and structure were assessed. The early developmental trajectory of immature OLs was tracked, and the cells were isolated for transcriptomic profiling. Results: The dual-hit model exhibited delayed myelination, accompanied by long-term behavioral abnormalities, reduced hippocampal functional connectivity, and decreased hippocampal gray matter volume. A marked surge in immature OL death was observed around postnatal day 9. Transcriptomic profiling at this developmentally vulnerable time point revealed pronounced inflammatory reprogramming within immature OLs. Conclusions: Perinatal inflammation combined with postnatal hypoxia delays myelination and leads to persistent behavioral and brain structural and functional alterations, with immature OLs loss and inflammatory reprogramming emerging as potential drivers of preterm brain injury.

Project description:To explore the molecular mechanism underlying social isolation and resocialization, we performed RNA-seq on mPFC samples from the ~7-week-old control and social isolation mice. We identified 1265 differentially expressed genes (DEGs) that were enriched in 4 pathways: cognitive behavior, myelin development, synaptic development, and ion channels.

Project description:Egr2/Krox20 and Sox10 regulate genes involved in formation of myelination in the peripheral nervous system. ChIP-chip assays were performed on rat sciatic nerve at P15, a peak timepoint of myelination. In addition, Faire was used to identify areas of open chromatin. This experiment includes a custom ChIP-chip design incorporating many genes that are dynamically regulated during peripheral nerve myelination. Two antibodies were used for Egr2, Abcam and Covance PRB-236P. Egr2 and Sox10 ChIP samples were hybridized along with total input. In addition, FAIRE samples were hybridized relative to input DNA

Project description:We have previously shown that corticosterone (CORT) can induce premature differentiation of somatotrophs in the chicken embryo. CORT induction of GH mRNA is indirect, in that protein synthesis inhibition blocks its inducing effect. In this study, we used a custom chicken microarray to analyze global gene expression in the embryonic pituitary gland and to identify potential direct targets of CORT that may regulate its induction of somatotroph differentiation. Our microarray analysis revealed 25 direct early targets of CORT. Keywords: Duration of corticosterone treatment on gene expression levels

Project description:Social dominance encompasses winning dyadic contests and gaining priority access to resources and reproduction. Disposition to dominance is influenced by environmental factors, particularly during early postnatal life and adolescence. A disinhibitory mPFC microcircuit has been implicated in the expression of dominance in the “tube test” paradigm of social competition in mice, but the neuronal and transcriptional plasticity associated with the environment induced increase in social dominance is not known. We previously reported that male pups raised by physically active (as opposed to sedentary) dams exhibit dominance and increased reproductive fitness, and here we show that social isolation from weaning also increases dominance. By using these preweaning and postweaning environmental models, we tested if dominance is associated with transcriptional plasticity and a specific transcriptional profile in one or more cell types in the mPFC. Given that the mPFC is composed of several cell types, we used single cell transcriptomics to characterize the influence of the preweaning maternal and postweaning social environment on cell-type specific gene expression. The preweaning maternal effect, but not postweaning social isolation, caused gene expression changes in a wide range of cell types including pyramidal neurons, various interneurons, and astrocytes. However, both the maternal effect and social isolation induced the coordinated downregulation of synaptic channel, receptor, and adhesion genes in parvalbumin positive (PV) interneurons. This suggests an impaired PV interneuron-mediated inhibition of pyramidal cells in animals predisposed to dominance, a notion consistent with dominant behavior being driven by the disinhibition of mPFC pyramidal neurons.

Project description:Egr2/Krox20 and Sox10 regulate genes involved in formation of myelination in the peripheral nervous system. ChIP-chip assays were performed on rat sciatic nerve at P15, a peak timepoint of myelination. In addition, Faire was used to identify areas of open chromatin. This experiment includes a custom ChIP-chip design incorporating many genes that are dynamically regulated during peripheral nerve myelination. Two antibodies were used for Egr2, Abcam and Covance PRB-236P.

Project description:This study focused on transcription in the medial PFC (mPFC) as a function of age and cognition. Young and aged F344 rats were characterized on tasks, attentional set shift and spatial memory, which depend on the mPFC and hippocampus, respectively. Differences in transcription associated with age and cognitive function were examined using RNA sequencing to construct transcriptomic profiles for the mPFC, white matter, and region CA1 of the hippocampus. The results indicate regional differences in vulnerability to aging associated with increased expression of immune and defense response genes and a decline in synaptic and neural activity genes. Importantly, we provide evidence for region specific transcription related to behavior. In particular, expression of transcriptional regulators and neural activity-related immediate-early genes (IEGs) are increased in the mPFC of aged animals that exhibit delayed set shift behavior; relative to age-matched animals that exhibit set shift behavior similar to younger animals. The study contains 11 young and 20 aged rats for the mPFC and CA1 samples, which were used to investigate expression patterns associated with aging and behavior. White matter samples were used to investigate an age-related effect with 8 young and 9 aged rats.