Project description:We have used a social defeat (SD) mouse model of post-traumatic stress disorder (PTSD) that is based on a brief exposure of a mouse to the aggressor mice for either 5 d or 10 d stress periods. Mice simulating aspects of posttraumatic stress disorder exhibit behavioral changes, body weight gain, increased body temperature, and inflammatory and fibrotic histopathologies and transcriptomic changes of heart tissue. Liver tissue of these mice was subjected to mRNA analysis. Transcriptomic analysis of liver indicated chronic toxicities and metabolic alterations in aggressor-exposed mice that possibly contributed to the persistent metabolic disturbance Two-condition experiment, C57BL6/J mice Biological replicates: 4-6 control replicates, 5-6 stressed replicates.
Project description:We have used a social defeat (SD) mouse model of post-traumatic stress disorder (PTSD) that is based on a brief exposure of a mouse to the aggressor mice for either 5 d or 10 d stress periods. Mice simulating aspects of posttraumatic stress disorder exhibit behavioral changes, body weight gain, increased body temperature, and inflammatory and fibrotic histopathologies and transcriptomic changes of heart tissue. Liver tissue of these mice was subjected to mRNA analysis. Transcriptomic analysis of liver indicated chronic toxicities and metabolic alterations in aggressor-exposed mice that possibly contributed to the persistent metabolic disturbance
Project description:Social stress mouse models were used to simulate human post-traumatic stress disorder (PTSD). C57B/6 mice exposed to SJL aggressor mice exhibited behaviors accepted as PTSD-in-mouse phenotype: 'frozen' motion, aggressor's barrier avoidance, startled jumping, and retarded locomotion. Transcripts in spleen, blood and hemi-brain of stressed and control C57B/6 mice were analyzed using Agilent's mouse genome-wide arrays. C57B6 mice were exposed to SJL aggressor mice for periods of 5 days and 10 days (6 hours each day) to induce anxiety/stress which parallels to PTSD in human. Organs, blood and brain regions were collected after 24 hours and 1.5 week of post 5 days social defeat period; and 24 hour and 6 weeks post 10 days social stress period.
Project description:Social stress mouse models were used to simulate human post-traumatic stress disorder (PTSD). C57B/6 mice exposed to SJL aggressor mice exhibited behaviors accepted as PTSD-in-mouse phenotype: 'frozen' motion, aggressor's barrier avoidance, startled jumping, and retarded locomotion. Transcripts in spleen, blood and hemi-brain of stressed and control C57B/6 mice were analyzed using Agilent's mouse genome-wide arrays.
Project description:This project aims to characterize the transgenerational genomic impact of genocide exposure and post-traumatic stress disorder (PTSD) in women survivors of the Rwandan genocide and their offspring.
Project description:Social stress mouse models were used to simulate human post-traumatic stress disorder (PTSD). C57B/6 mice exposed to SJL aggressor mice exhibited behaviors accepted as PTSD-in-mouse phenotype: 'frozen' motion, aggressor’s barrier avoidance, startled jumping, and retarded locomotion. Transcripts in hippocampus, amygdala, medial prefrontal cortex, ventral striatum (nucleus acumbens), septal region, corpus striatum, hemi-brain, blood, spleen and heart of stressed and control C57B/6 mice were analyzed using Agilent’s mouse genome-wide arrays. C57B6 mice were exposed to SJL aggressor mice for periods of 5 days and 10days (6 hours each day) to induce anxiety/stress which parallels to PTSD in human Organs, blood and brain regions were collected after 24 hours and 1.5 week of post 5 days social defeat period; and 24 hour and 6 weeks post 10 days social stress period.
