Project description:MYC is a pleiotropic transcription factor that regulates numerous pathways and whose deregulation promotes cancer. Myc+/- mice have extended lifespan relative to their wild type littermates. To better understand the effects of the Myc+/- genotype on cellular processes, microarrays were performed on young (5 month) and old (24 month) Myc+/- and WT males in liver, skeletal muscle, and adipose tissues. Microarray data were used to compare the effects of aging with the effects of the Myc+/- genotype at each age, to identify pathways enriched for differentially expressed genes, and to compare the Myc+/- gene expression signature with that from other long-lived mice. Male mice of each genotype (Myc+/- and wild type) were sacrificed at 5 months and 24 months of age, and tissues were harvested and snap frozen in liquid nitrogen. RNA was extracted, and pooled between 5-8 mice within each cohort, creating one pooled sample for each combination of age, genotype, and tissue. Three technical replicates were run for each sample.

Project description:MYC is a pleiotropic transcription factor that regulates numerous pathways and whose deregulation promotes cancer. Myc+/- mice have extended lifespan relative to their wild type littermates. To better understand the effects of the Myc+/- genotype on cellular processes, microarrays were performed on young (5 month) and old (24 month) Myc+/- and WT males in liver, skeletal muscle, and adipose tissues. Microarray data were used to compare the effects of aging with the effects of the Myc+/- genotype at each age, to identify pathways enriched for differentially expressed genes, and to compare the Myc+/- gene expression signature with that from other long-lived mice.

Project description:Rapamycin extends life span in mice, but it remains unclear if this compound also delays mammalian aging. Here, we present results from a comprehensive large-scale assessment of a wide rage of structural and functional aging phenotypes in mice. Rapamycin extended life span but showed few effects on a large number of systemic aging phenotypes, suggesting that rapamycin's effects on aging are largely limited to the regulation of age-related mortality and carcinogenesis. Total RNA obtained from 2-4 male mice of each analysed group (25 weeks old controls, 25 month old controls, 25 month old rapamycin treated)

Project description:Using an unbiased systems-based screen, we demonstrate the cardiac transcription factor TBX20 physically and genetically interacts with the essential transcription factor CASZ1. This interaction is required for survival as mice heterozygous for both Tbx20 and Casz1 die post-natally as a result of dilated cardiomyopathy (DCM).We have used quantitative proteomic approaches to define the molecular pathways mis-regulated in Tbx20 and Casz1 mice and thus, are associated with DCM. Using an unbiased systems-based screen, we demonstrate the cardiac transcription factor TBX20 physically and genetically interacts with the essential transcription factor CASZ1. This interaction is required for survival as mice heterozygous for both Tbx20 and Casz1 die post-natally as a result of dilated cardiomyopathy (DCM).We have used quantitative proteomic approaches to define the molecular pathways mis-regulated in Tbx20 and Casz1 mice and thus, are associated with DCM.

Project description:Metformin has been commonly used for decades to treat type 2 diabetes. Recent data indicates that mice treated with metformin live longer and healthier lives. Here, we show that chronic metformin exposure in mice and diabetics taking metformin have higher levels of the microRNA processing protein, Dicer. Examination of how metformin affects Dicer expression revealed that metformin alters binding of the AUF1 RNA-binding protein to DICER1 mRNA, which leads to stabilization of DICER1 mRNA. We found differential changes in microRNA expression in mice treated with metformin or caloric restriction, a proven life extending intervention. Several of these microRNAs are important for regulating cellular senescence and lifespan in model organisms. Consistent with this observation, treatment with metformin decreased cellular senescence in a Dicer-dependent manner. These data lead us to hypothesize that changes in Dicer levels may be important for organismal aging and that interventions that upregulate Dicer expression (e.g., metformin) may offer new therapeutic approaches to combat or prevent age-related diseases. Key words: diabetes mellitus, metformin, senescence, miRNA, RNA-binding proteins

Project description:Here we show that oral creatine (Cr) supplementation leads to increased life span in mice. Treated mice showed improved neurobehavioral performance, decreased accumulation of the aging pigment lipofuscin and upregulation of “anti-aging” genes in brain. As Cr is virtually free of adverse effects, it may be a promising food supplement for healthy aging in man. Keywords: creatine, life span, neurobehavioural performance, microarray, oxidative stress, aging

Project description:Rapamycin extends life span in mice, but it remains unclear if this compound also delays mammalian aging. Here, we present results from a comprehensive large-scale assessment of a wide rage of structural and functional aging phenotypes in mice. Rapamycin extended life span but showed few effects on a large number of systemic aging phenotypes, suggesting that rapamycin's effects on aging are largely limited to the regulation of age-related mortality and carcinogenesis.

Project description:Here we show that oral creatine (Cr) supplementation leads to increased life span in mice. Treated mice showed improved neurobehavioral performance, decreased accumulation of the aging pigment lipofuscin and upregulation of anti-aging genes in brain. As Cr is virtually free of adverse effects, it may be a promising food supplement for healthy aging in man. Experiment Overall Design: 6 biological replicates for creatine-treated mice, 7 biological replicates for untreated mice.

Project description:RNA sequencing of blood-resident Eµ-myc lymphoma cells from TpoTg mice post tumour transplant revealed upregulated hallmark gene sets associated with inflammatory response, when compared to Eµ-myc tumour transplanted wild-type mice.

Project description:The causal relationships between insulin levels, insulin resistance, and longevity are not fully elucidated. Genetic down-regulation of insulin/insulin-like growth factor 1 (Igf1) signaling components can extend invertebrate and mammalian lifespan, but insulin resistance, a natural form of decreased insulin signaling, is associated with greater risk of age-related disease in mammals. We compared Ins2+/- mice to Ins2+/+ littermate controls, on a genetically stable Ins1-null background. Proteomic and transcriptomic analyses of livers from 25 week-old mice suggested potential for healthier aging and altered insulin sensitivity in Ins2+/- mice. Halving Ins2 lowered circulating insulin by 25-34% in aged female mice, without altering Igf1 or circulating Igf1. Remarkably, decreased insulin led to lower fasting glucose and improved insulin sensitivity in aged mice. Moreover, lowered insulin caused significant lifespan extension, observed across two diverse diets. Our study indicates that elevated insulin contributes to age-dependent insulin resistance, and that limiting basal insulin levels can extend lifespan.