Project description:Effects of voluntary exercise in rat aorta. Spontaneously hypertensive rats (SHR) performed 5 weeks of voluntary exercise (wheel-cage running). Aortic tissue was collected and samples were pooled (3 aortae/chip). Aortae from running rats were compared to aortae from non-running rats. Keywords: parallel sample
Project description:Effects of voluntary exercise in rat aorta. Spontaneously hypertensive rats (SHR) performed 5 weeks of voluntary exercise (wheel-cage running). Aortic tissue was collected and samples were pooled (3 aortae/chip). Aortae from running rats were compared to aortae from non-running rats.
Project description:Colon cancer is the second most cancer type in Europe. Its development is highly influenced by life style factors such as nutrition and physical inactivity. Detailed biological mechanisms are so far unclear. The purpose of this study was to investigate the effects of chronic wheel running on gene expression in rat colon mucosa. Therefore six-week-old male Wistar rats (exercise (EX) group, n=20) completed a stress free voluntary running exercise period of 12 weeks. Sedentary rats served as a control (CO, n=9) group. In the colon mucosa, steady-state mRNA expression levels of approximately 10,000 genes were compared between both groups by micro-array analysis (MWG rat 10k array). 8,846 mRNAs were detected above background level. Chronic exercise led to a decreased expression of 47 genes at a threshold-factor of 2.0. 3 genes were found to be up-regulated in the EX group. The identified genes encode proteins involved in signal transduction (n=11), transport (n=8), immune system (n=7), cytoskeleton (n=6), protein targeting (n=6) and metabolism (n=5). Among the genes regulated by chronic exercise, the betaine-homocysteine methyltransferase 2 (BHMT2) seems to be of particular interest. Physical activity may protect against aberrant methylation by repressing the BHMT2 gene and thus contribute to a decreased risk of developing colon cancer. In summary, our experiment presents the first gene expression pattern in rat colon mucosa following chronic wheel running and therefore represents an important step in understanding the molecular mechanisms responsible for the preventive effect of physical activity on the development of colon cancer. Keywords: voluntary running exercise, animal model
Project description:To undertake transcriptome-wide microarray analysis to develop a view of molecular adaptations that may underpin any benefit associated with the mild exercise regime of voluntary running Total RNA obtained from isolated whole hearts subjected to 7 days of voluntary exercise compared to sedentary control hearts (n=6/group).
Project description:Voluntary running exercise after focal cerebral ischemia promotes functional recovery and prevents the ischemia-induced dendritic spine loss in the peri-infarct motor cortex layer 5. Neuronal morphology is affected by the perineuronal environmental change. Glia exert crucial roles in the formation of perineuronal environment, and exercise-induced changes of glial phenotype are expected. Here, we demonstrated that voluntary running exercise increased the population of newborn astrocytes in the acute phase after cerebral ischemia at late phase. Transcriptome analysis detected 10 upregulated genes and 70 downregulated genes by exercise in the ipsilateral cortex astrocytes. Gene cluster downregulated by exercise were significantly associated with neuronal morphology. The expression of Lipocalin 2, a factor of decreasing dendritic spines, tended to be decreased in the postischemic astrocytes by exercise. Our results suggest that exercise modifies the phenotype of postischemic astrocytes, which relate to the exercise-induced amelioration of postischemic dendritic spine loss.
Project description:To undertake transcriptome-wide microarray analysis to develop a view of molecular adaptations that may underpin any benefit associated with the mild exercise regime of voluntary running
Project description:To understand the role of LSD1 in transcriptional regulation in muscle under voluntary wheel running (VWR) training, RNA-seq analyses of soleus muscles of skeletal muscle-specific LSD1 KO mice (LSD1-mKO mice) and WT mice after VWR were carried out. We found that loss of LSD1 led to increased expression of oxidative metabolism genes in soleus muscle.
Project description:To examine the impact of selective breeding for voluntary wheel running activity on gene expression in the vomeronasal organ (VNO), RNAseq analysis was conducted in the VNO of 4 High Runner and 4 Control lines.
Project description:The goals of this study were: 1) to compare the transcriptome of a mouse line selected for high voluntary wheel running and a control line, and 2) evaluate the differences in the cerebellum and in the striatum.
