Project description:To understand the consequences of chronic exposure to fluoxetine during juvenile life on global transcriptional changes withing the rat medial prefrontal cortex in adulthood. To understand the consequences of chronic exposure to fluoxetine during juvenile life on global transcriptional changes withing the rat medial prefrontal cortex in adulthood.

Project description:To understand the consequences of chronic exposure to fluoxetine during postnatal life on global transcriptional changes withing the rat medial prefrontal cortex in adulthood. To understand the consequences of chronic exposure to fluoxetine during postnatal life on global transcriptional changes withing the rat medial prefrontal cortex in adulthood.

Project description:Animal models provide opportunity to study neurobiological aspects of human alcoholism. Changes in gene expression have been implicated in mediating brain function, including reward system and addiction. The current study aimed to identify novel genes that may underlie ethanol preference. Microarray analysis comparing gene expression in nucleus accumbens (NAc), hippocampus (HP) and prefrontal medial cortex (mPFC) was performed in two rat strains selected for extreme levels of ethanol preference - Warsaw High Preferring (WHP) and Warsaw Low Preferring (WLP). The identified candidate genes may underlie differential ethanol preference in rat model of alcoholism. This is analysis of 18 RNA samples, including 9 technical replicates. Two strains of rats selected for extreme levels of ethanol preference (low preferring WLP and high preferring WHP) were compared. Three brain areas (nucleus accumbens, prefrontal medial cortex and hippocampus) were studied. For each brain area, 6 RNA samples (including 3 technical replicates) were analyzed. Each RNA sample consist of of equal amounts of total RNA from 3 male rats. Comparisons: Nucleus accumbens of WHP vs. Nucleus accumbens of WLP; Prefrontal medial cortex of WHP vs. Prefrontal medial cortex of WLP; Hippocampus of WHP vs. Hippocampus of WLP. 3 biological replicates in each comparison.

Project description:In this study, we used chronic restraint stress to establish a mouse model of depression, and differentially expressed proteins in the medial prefrontal cortex of depressive model mice were detected by TMT proteomics. By functional enrichment analysis of the differentially expressed proteins, we found that CRS-induced mice have altered synaptic function and excessive autophagy. In addition, we also demonstrated that CRS may disrupt synaptic plasticity by affecting activation of the Wnt2b/尾-catenin pathway which may help explain the pathogenesis of depression and identify new antidepressant drug targets.

Project description:The gene expression patterns in the medial prefrontal cortex of Camk2a+/- mice and wild-type mice were examined using Affymetrix GeneChip arrays.

Project description:The gene expression patterns in the medial prefrontal cortex of wild-type mice (2W and 12W) were examined using Affymetrix GeneChip arrays.

Project description:The gene expression patterns in the medial prefrontal cortex of wild-type mice treated with fluoxetine (15 mg/kg/day for 3 weeks) or vehicle were examined using Affymetrix GeneChip arrays.

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:Shank3 is a core excitatory postsynaptic protein expressed in multiple brain regions including the medial prefrontal cortex, striatum, and hippocampus. We have previously generated and characterized Shank3-overexpressing transgenic mice, and found that these mice exhibited manic-like behavioral phenotypes. To understand molecular mechanisms underlying the behavioral changes, we performed transcriptome (RNA-sequencing) analysis of the mPFC tissues from 10 to 12-week-old wild-type and Shank3 transgenic mice.

Project description:Medial prefrontal cortex (mPFC) transcriptome analysis of Shank3-overexpressing mice