Project description:We investigated gene expression in mice subjected to acute and chronic social stress of different duration. Microarray data showed that chronic stress affected genes involved in function of vascular system (Alas2, Hbb-b1, Hba-a2, Hba-a1), injury response (Vwf, Mgp, Cfh, Fbln5, Col3a1, Ctgf) and inflammation (Isg20, Ctla2a, Ctla2b,Lcn2, Lrg1, Rsad2,S100a8, S100a9). Review of the literature revealed that the most frequently regulated genes (up or down) were Igfbp2, Igf2, Prlr, App, Cdh1, Col1A1, Clic6, Enpp2, Sostdc1,Itgb6, Mef2c, Spp1, and Zeb2. Obtained results suggest that stress may affect brain functions through the stress-induced dysfunction of the vascular system. Some of the key genes revealed by the review of published data participate both in the response to injury and in the mechanism of learning and memory. These genes may constitute a link between stress and stress-induced memory impairments. An important issue raised by our work is also the risk of tissue contamination with choroid plexus. Such contamination would result in consistent up- or down-regulation of genes, such as Ttr, Igf2, Igfbp2, Prlr, Enpp2, Sostdc1, 1500015O10RIK (Ecrg4), Kl, Clic6, Kcne2, F5, Slc4a5, and Aqp1. This is analysis of 24 hippocampal RNA samples. Each sample consisted of equal amounts of total RNA from 3 mice subjected to the same experimental condition. Comparisons: acute stress vs. acute control (unstressed), stress-8 days vs. control-8 days, stress-13 days vs. control-13 days, stress-13 days+5 days of rest vs. control-13 days+5 days of rest. 3 biological replicates in each comparison. Dye swap (technical replicate) was included for each biological replicate.

Project description:We investigated gene expression in mice subjected to acute and chronic social stress of different duration. Microarray data showed that chronic stress affected genes involved in function of vascular system (Alas2, Hbb-b1, Hba-a2, Hba-a1), injury response (Vwf, Mgp, Cfh, Fbln5, Col3a1, Ctgf) and inflammation (Isg20, Ctla2a, Ctla2b,Lcn2, Lrg1, Rsad2,S100a8, S100a9). Review of the literature revealed that the most frequently regulated genes (up or down) were Igfbp2, Igf2, Prlr, App, Cdh1, Col1A1, Clic6, Enpp2, Sostdc1,Itgb6, Mef2c, Spp1, and Zeb2. Obtained results suggest that stress may affect brain functions through the stress-induced dysfunction of the vascular system. Some of the key genes revealed by the review of published data participate both in the response to injury and in the mechanism of learning and memory. These genes may constitute a link between stress and stress-induced memory impairments. An important issue raised by our work is also the risk of tissue contamination with choroid plexus. Such contamination would result in consistent up- or down-regulation of genes, such as Ttr, Igf2, Igfbp2, Prlr, Enpp2, Sostdc1, 1500015O10RIK (Ecrg4), Kl, Clic6, Kcne2, F5, Slc4a5, and Aqp1. The study was supported by Grant N N311 604938, 2011/03/N/NZ29/05222 and partially by IP2011 030371. Statistical analysis of microarray data was supported with Grant N N519 657940.

Project description: Not available

Project description: Not available

Project description:In order to better understand the effects of social stress on the prefrontal cortex, we investigated gene expression in mice subjected to acute and repeated social encounters of different duration using microarrays. The observed up-regulation of genes associated with vascular system and brain injury suggests that stressful social encounters may affect brain function through the stress-induced dysfunction of the vascular system. We studied gene expression profiles of prefrontal cortices of male mice subjected to social stress of different durations: Comparisons included: acute stress (24 hours after single social stress episode) vs. acute control (unstressed), stress-8 days vs. control-8 days, stress-13 days vs. control-13 days, stress-13 days+5 days of rest vs. control-13 days+5 days of rest. For each comparison, we analyzed 3 biological replicates per group. Two of out of three biological replicates were further replicated in dye swap (final dye swap failed due to problem during microarray hybridization). Each biological replicate consisted of equal amounts of total RNA from 3 mice subjected to the same experimental condition.

Project description: Not available

Project description:Chronic stress exposure in adolescence can lead to a lasting change in stress responsiveness later in life and is associated with increased mental health issues in adulthood. Here we investigate whether the Chronic Social Instability (CSI) paradigm in mice influences the molecular response to novel acute stressors

Project description:In order to better understand the effects of social stress on the prefrontal cortex, we investigated gene expression in mice subjected to acute and repeated social encounters of different duration using microarrays. The observed up-regulation of genes associated with vascular system and brain injury suggests that stressful social encounters may affect brain function through the stress-induced dysfunction of the vascular system. The study was supported by Grant N N311 604938, 2011/03/N/NZ29/05222 and partially by IP2011 030371. Statistical analysis of microarray data was supported with Grant N N519 657940.

Project description: Not available

Project description: Not available