Project description:Dietary restriction is a nutritional intervention that consistently increases life span in animals. To identify alternative, more acceptable nutritional regimes that nevertheless extend life span, we used the fruit fly Drosophila melanogaster as a model. We tested if weekly recurring nutritional regimes composed of phases of ad libitum feeding and dietary restriction can increase life span. Short periods of dietary restriction (up to 2 days) followed by longer ad libitum phases increased life span only marginally, whereas regimes comprising longer contiguous periods (3 days and more) became clearly positive, reaching similar life span extensions as those seen if dietary restriction was applied persistently. Female flies were substantially more responsive to these interventions than males. The finding that a minimal period of 3-4 days of dietary restriction is required to induce robust life span extensions was mirrored by the observation that substantial physiological and transcriptional changes occurred in a similar temporal pattern. Moreover, these dietary restriction induced changes were also detectable after switching to ad libitum feeding. Among the physiological changes induced by these phases of dietary restriction, a reduced metabolic rate and a substantial and long-lasting reduction in insulin signaling were most compelling. Age associated molecular signatures comprising mechanisms that reduce insulin signaling showed up after longer periods of dietary restriction in the fly’s fat body, thus showing how molecular alterations transduce into life span related physiological changes.

Project description:Expression data from four different lifespan-extending conditions: dietary restriction in two different genetic backgrounds (canton-s and a yw, w1118 combination), sir2 overexpression and p53 knockdown (+/-). Comparison of significantly over and under-expressed genes reveals a signature for dietary restriction and lifespan extension. Abstract A major challenge in translating the positive effects of dietary restriction (DR) for the improvement of human health is the development of therapeutic mimics. One approach to finding DR mimics is based upon identification of the proximal effectors of DR life span extension. Whole genome profiling of DR in Drosophila shows a large number of changes in gene expression, making it difficult to establish which changes are involved in life span determination as opposed to other unrelated physiological changes. We used comparative whole genome expression profiling to discover genes whose change in expression is shared between DR and two molecular genetic life span extending interventions related to DR, increased dSir2 and decreased Dmp53 activity. We find twenty-one genes shared among the three related life span extending interventions. One of these genes, takeout, thought to be involved in circadian rhythms, feeding behavior and juvenile hormone binding is also increased in four other life span extending conditions: Rpd3, Indy, chico and methuselah. We demonstrate takeout is involved in longevity determination by specifically increasing adult takeout expression and extending life span. These studies demonstrate the power of comparative whole genome transcriptional profiling for identifying specific downstream elements of the DR life span extending pathway. 42 samples were used in the analysis. Sir2 overexpression flies and the yw, w1118 background DR flies had the same control. Flies were collected at ages 10 and 40 days. Tissue is whole body females.

Project description:Expression data from four different lifespan-extending conditions: dietary restriction in two different genetic backgrounds (canton-s and a yw, w1118 combination), sir2 overexpression and p53 knockdown (+/-). Comparison of significantly over and under-expressed genes reveals a signature for dietary restriction and lifespan extension. Abstract A major challenge in translating the positive effects of dietary restriction (DR) for the improvement of human health is the development of therapeutic mimics. One approach to finding DR mimics is based upon identification of the proximal effectors of DR life span extension. Whole genome profiling of DR in Drosophila shows a large number of changes in gene expression, making it difficult to establish which changes are involved in life span determination as opposed to other unrelated physiological changes. We used comparative whole genome expression profiling to discover genes whose change in expression is shared between DR and two molecular genetic life span extending interventions related to DR, increased dSir2 and decreased Dmp53 activity. We find twenty-one genes shared among the three related life span extending interventions. One of these genes, takeout, thought to be involved in circadian rhythms, feeding behavior and juvenile hormone binding is also increased in four other life span extending conditions: Rpd3, Indy, chico and methuselah. We demonstrate takeout is involved in longevity determination by specifically increasing adult takeout expression and extending life span. These studies demonstrate the power of comparative whole genome transcriptional profiling for identifying specific downstream elements of the DR life span extending pathway.

Project description:Naked mole rats (NMRs, Heterocephalus glaber) are long-lived mammals that possess a natural resistance to cancer and other age-related pathologies, maintaining a healthy life span for >30 years. We report application of RNAseq technology to analyze changes in the skin transcriptome of NMRs during aging. RNAseq analyses reveal that the transcript levels of several longevity-associated (Igfbp3, Igf2bp3, Ing2) and tumor-suppressor genes (Btg2, Cdkn1a, Cdkn2c, Dnmt3a, Hic1, Socs3, Sfrp1, Sfrp5, Thbs1, Tsc1, Zfp36) are increased in aged versus young NMR skin. Overall, these data suggest that specific features in the NMR skin aging transcriptome might contribute to the resistance of NMRs to spontaneous skin carcinogenesis and provide a platform for further investigations of NMRs as a model organism for studying the biology and disease resistance of human skin.

Project description:A Saccharomyces cerevisiae mutant with extended chronological life span was obtained by using an evolutionary engineering strategy, based on successive batch cultivation under gradually enhanced caloric restriction. The mutant strain SRM11 was selected which had about 50% longer life span than the reference strain. Whole-genome transcriptomic analysis of SRM11 with respect to the reference strain was performed to identify differences in gene expression levels between the two strains.

Project description:Transcriptional profiling of Indy long lived flies and controls over the course of their entire lifespan. Mutations in the Indy gene extend life span in Drosophila melanogaster. This study investigates the changes in gene expression over time in Indy206 flies heterozygous over Canton-S (Indy206/CS) and compares them to genetically matched heterozygous controls (2216/CS). Samples from both fly strains were collected at age: 5, 10, 20, 30, 40, 50, 70 and 80.

Project description:Background: C. elegans fed with a chemical inhibitor of glucose, namely 2-deoxy-D-glucose (DOG), exhibit considerably extended life span. DOG, in contradiction to D-glucose, cannot be metabolized in the glycolytic pathway. This results in the fact that less glucose is available for ATP production, and thus makes DOG-feeding of the roundworms equivalent to glucose restriction. The RNA-seq data comprises 4 age groups (1, 5, 10 and 20 days after L4) Jena Centre for Systems Biology of Ageing - JenAge (www.jenage.de)

Project description:Background: C. elegans fed with a chemical inhibitor of glucose, namely 2-deoxy-D-glucose (DOG), exhibit considerably extended life span. DOG, in contradiction to D-glucose, cannot be metabolized in the glycolytic pathway. This results in the fact that less glucose is available for ATP production, and thus makes DOG-feeding of the roundworms equivalent to glucose restriction. The RNA-seq data comprises 4 age groups (1, 5, 10 and 20 days after L4) 11 samples: mRNA profiles of 1-day, 5-day and 10-day old worms as triplicates for DOG treatment; mRNA profiles of 20-day old worms as duplicates for DOG treatment

Project description:The naked mole-rat (NMR), Heterocephalus glaber, is a mouse-sized subterranean rodent native to East Africa. Research on NMRs is intensifying in an effort to gain leverage from their unusual physiology, long-life span and cancer resistance for the development of new theraputics. Few studies have attempted to explain the reasons behind the NMR’s cancer resistance, but most prominently Tian et al. reported that NMR cells produce high-molecular weight hyaluronan as a potential cause for the NMR’s cancer resistance. Tian et al. have shown that NMR cells are resistant to transformation by SV40 Large T Antigen (SV40LT) and oncogenic HRAS (HRASG12V), a combination of oncogenes sufficient to transform mouse and rat fibroblasts. We have developed a number of lentiviral vectors to deliver both these oncogenes and generated 106 different cell lines from five different tissues and eleven different NMRs, and report here that contrary to Tian et al.’s observation, NMR cells are susceptible to oncogenic transformation by SV40LT and HRASG12V. Our data thus point to a non-cell autonomous mechanism underlying the remarkable cancer resistance of NMRs. Identifying these non-cell autonomous mechanisms could have significant implications on our understanding of human cancer development.

Project description:Caloric restriction is a robust intervention to increase life span. Giving less food (CR), or allowing free access to diluted diet with indigestible components (CD) are two methods to impose restriction. CD does not generate the same lifespan effect as CR. We compared responses of C57BL/6 mice to equivalent levels of CR and CD. Our study calorie restriction and calorie two restriction methods different effect on hypothamic gene expression pattern, RNA-seq was performed using hypothalamus of mice with 2 methods treatment as well as control group.