Project description:This analysis was done to determine which muscle group has the most skeletal muscle transcriptional reponses to wheel running activity. Seven male mice with C57BL/6 genetic background were placed individually in cages with running wheels and allowed free access to the wheels 24 hr per day. Access to running wheels began when the mice were 6 months old, and continued for 12 weeks. The morning after the night of running, the mice were euthanized and several muscle groups were snap froze in liquid nitrogen to preserve RNA. The same muscle groups were collected from three age-matched "sedentary" mice that were housed in ordinary cages that did not permit sustained running. For each muscle group, separate pools of polyadenylated RNA from the sedentary and wheel-running mice were prepared for deep sequencing of cDNA with the SOLiD 3 platform.

Project description:Examined the role of maternal voluntary wheel running commencing 10 weeks prior to gestation, and throughout pregnancy, on placental transcriptome in late gestation While exercise (EX) is beneficial during pregnancy for both mother and child, little is known about the mechanisms by which maternal (MAT EX) mediates changes in utero. We hypothesized that effects of MAT EX prior to and during gestation will be evident in transcriptomic signatures in the placenta and will be sexually dimorphic. Six-week-old female C57BL/6 mice were divided into 2 groups; with (exercise, EX; N = 7) or without (sedentary, SED; N = 8) access to voluntary running wheels. EX was provided via 24-hour access to wheels for 10 weeks prior to conception until late pregnancy (18.5 days post coitum). Sex-stratified placenta and fetal livers were collected. Mi-croarray analysis of SED and EX placenta revealed that MAT EX affected gene transcript expression of 283 and 661 transcripts in male and female placenta (±1.4-fold, p < 0.05). Gene-set enrichment and Ingenuity Pathway analyses of male placenta showed that MAT EX led to inhibition of sig-naling pathways, biological functions, and down regulation of transcripts related to lipid and steroid, while MAT EX in female placentas led to activation of pathways, biological functions, and gene expression related to muscle growth, brain, vascular development, and growth factors. Overall, our results suggest that effects of MAT EX on the placenta and presumably on the offspring are influenced by maternal habitus and are sexually dimorphic.

Project description:This analysis was done to determine which muscle group has the most skeletal muscle transcriptional reponses to wheel running activity. Seven male mice with C57BL/6 genetic background were placed individually in cages with running wheels and allowed free access to the wheels 24 hr per day. Access to running wheels began when the mice were 6 months old, and continued for 12 weeks. The morning after the night of running, the mice were euthanized and several muscle groups were snap froze in liquid nitrogen to preserve RNA. The same muscle groups were collected from three age-matched &quot;sedentary&quot; mice that were housed in ordinary cages that did not permit sustained running. For each muscle group, separate pools of polyadenylated RNA from the sedentary and wheel-running mice were prepared for deep sequencing of cDNA with the SOLiD 3 platform. Four muscle groups were examined (quadriceps femoris; gastrocnemius/plantaris; tibialis anterior; triceps brachii). For each muscle, RNA was pooled from 3 sedentary or 7 wheel-running mice (8 pools total).

Project description:We use RNA-sequencing to measure global transcription in uteri of young and aged (~1yr old) C57BL/6 females at day 3.5 (E3.5) of pregnancy, and of the decidual part of E11.5 placentas developed in young and aged (~1yr old) females. We report dys-regulation of gene expression in the E3.5 uteri and E11.5 deciduae of aged mice. We compare the transcriptome of young and aged E11.5 deciduae with that of young deciduae from E9.5-E12.5 of pregnancy, and report that aged E11.5 deciduae are developmentally retarded in comparison to young deciduae.

Project description:Investigating the impact of maternal age on heart, brain, face, and placental development by using RNA-seq to compare these tissues at E10.5 from young vs. aged females

Project description:To determine the influence of a previous physcial activity period (e.g., exercise) on global gene expression, we compared differential expression in sedentary (SED) and detrained (DETR) rats relative to trained (TR) rats with regular access to physcial activity. TR and DETR rats had voluntary access to caged running wheels for 8 and 4 weeks, respectively. DETR rats were moved to sedentary conditions (normal cage activity) for another 4 weeks. SED rats experienced 8 weeks of normal caged activity; n=8 per group. At the end of each group's respective 8 weeks, all rats underwent 1 hr of moderate of acute exercise stress (e.g., forced wheel running at a speed of 20 m/min). Soleus muscles were harvested 24h post-running.

Project description:Currently, the mechanisms behind the anti-aging effects of exercise are not understood. The presented study conducted a microarray on hippocampal samples from adult (3.5 month-old) and aged (18 month-old) male BALB/c mice that were individually housed with or without running wheels for 8 weeks. Results showed that aging altered genes related to chromatin remodeling, cell growth, immune activity, and synapse organization compared to adult mice. Exercise was found to modulate many of the genes altered by aging, but in the opposite direction. For example, wheel running increased expression of genes related to cell growth and attenuated expression of genes involved in immune function and chromatin remodeling. Collectively, findings show that even late-onset exercise may attenuate age-related changes in gene expression and identifies possible pathways through which exercise may exert its beneficial effects. In total 20 samples (4 aged exercise, 4 aged sedentary, 6 adult exercise, and 6 adult sedentary) plus 4 technical replicates (24 total) were analyzed.

Project description:The interaction of genetics and environment play a major role in health and disease. Therefore, modeling experiments to investigate gene-environment interaction in a laboratory setting would provide the opportunity to gain mechanistic insight under controlled conditions. In laboratory research it is unclear if the gene-environment interaction of a sedentary lifestyle predisposes laboratory animals to hypokinetic diseases. Experiment Overall Design: We are seeking to compare gene expression and physiological markers of health and wellness in animals with: i. a sedentary lifestyle in a standard cage (CSS1-4); ii. access to twice-weekly physical activity in a large box outside a standard cage (CSA1-4); and iii. access to regular exercise in cages with running wheels (CSR1-4).

Project description:We use MeDIP-sequencing to measure global DNA methylation (5mC) in the uteri of young and aged C57BL/6 mice at day 3.5 (E3.5) of pregnancy, and of young and aged decidua at day 11.5 (E11.5) of pregnancy

Project description:To investigate the effect of exercise in several tissues, mice had free access to the wheel for two months, starting at the age of 16 to 18 months. Age-matched and younger sedentary controls were included. Running wheels were removed from the cages at least 4 days before necropsy, to eliminate acute effects of exercise. At the end of the trial, RNA was isolated from spinal cord, gastrocnemius and quadriceps muscle to perform bulk transcriptome (RNAseq) analysis. Despite many genes were differentially expressed in skeletal muscle samples following exercise, only few individual genes resulted changed by exercise in spinal cord.