Project description:This SuperSeries is composed of the following subset Series:; GSE8146: Age-related transcriptional changes and the effect of dietary supplementation of vitamin E in the mouse heart; GSE8150: Age-related transcriptional changes and the effect of dietary supplementation of vitamin E in the mouse brain Experiment Overall Design: Refer to individual Series

Project description:Transcription profiling of mouse brain to identify age-related transcriptional changes and the effect of dietary supplementation of vitamin E

Project description:Age-related transcriptional changes and the effect of dietary supplementation of vitamin E in the mouse heart and brain

Project description:Age-related transcriptional changes and the effect of dietary supplementation of vitamin E in the mouse heart

Project description:We established the transcriptional profile of brain aging and examine the global effects of vitamin E supplementation on age-related alterations in expression in the aged mouse brain. Keywords: expression profiling

Project description:We established the transcriptional profile of brain aging and examine the global effects of vitamin E supplementation on age-related alterations in expression in the aged mouse brain. Experiment Overall Design: Gene expression profiles were obtained from the neocortex tissues of 5-month-old controls, 30-month-old controls and 30-month old B6C3F1 mice with middle age-onset supplementation of alpha-tocopherol or a mixture of alpha and gamma-tocopherol (500mg/kg of each tocopherol).

Project description:We investigated whether dietary vitamin D supplementation can rescue the expression of genes that are dysregulated within the neocortex of Mecp2+/- mice, and whether vitamin D deficiency further exacerbates transcriptome disruptions in these mice. We found that dietary vitamin D modification has a profound impact on the transcriptome of the neocortex. We identified more than 200 differentially expressed genes whose expression is normalized with vitamin D supplementation, many of which are associated with neuronal morphology. Dietary vitamin D deficiency exacerbated the dysregulation of many of these genes in the Mecp2+/- cortex, but, strikingly, it normalized the expression of many other dysregulated genes, similar to the effect of supplementation.

Project description:Little is known about the global molecular changes leading to neurodegeneration and brain dysfunction in Alzheimer's disease (AD). To study the molecular cascades involved, we chose to study the transcriptomic profile of an early-onset AD model, the 5xFAD mice, at different time points (1 month, 4 months, 6 months and 9 months) of the disease. We are also interested in the effects of vitamin D supplementation in AD. Vitamin D receptor belongs to the family of nuclear receptors and vitamin D can act as a neurosteroid by regulating the expression of over a 1000 genes. We therefore decided to evaluate the effect of vitamin D supplementation in this AD mouse model at the transcriptomic level, after 5 months of supplementation (i.e. from 1 month to 6 months and from 4 months to 9 months).

Project description:Illumina Infinium EPIC HumanMethylation BeadChip data from saliva DNA samples from a healthy elderly cohort with individuals in the age range 70-95 in Southwest Sweden. The cohort was stratified into study groups based on participants´answers to a questionnaire of different lifestyle factors including vitamin supplementations, smoking and drinking habits, physical activity (per year), sun exposure and eating habits. Vitamin D intake was evaluated from the vitamin D supplementation (alone or in a multivitamin complex), dietary vitamin D intake (fish and seafood frequency) and vitamin D synthesis in the skin (sunlight exposure and use of sunscreen). Differential methylation analysis was performed for all the study groups and the combination of different factors with vitamin D supplementation. Gender, age, smoking and alcohol (SD and frequency) were used as covariates in the analyses. Only the study groups referred to the conclusions of the study are shown.

Project description:Dietary supplementation of vitamin D is commonly recommended to patients with multiple sclerosis (MS). We investigated the effect of 1,25-dihydroxyvitamin-D3 (1,25-(OH)2D3) on the brain proteome in the cuprizone model during remyelination. Mice were demyelinated with dietary cuprizone for 7 weeks. The mice received intra-peritoneal injections of 1,25-(OH)2D3 or placebo twice a week, from week 6 and throughout week 10. Brain samples were taken after 7 weeks (demyelinated), after 8 weeks (1 week remyelination) and after 10 weeks (3 weeks of remyelination). The six experimental groups were labeled with TMT, mixed mode HPLC fractionation, and applied to LC-MS which enabled quantification of 5062 proteins with high confidence.