Project description:This SuperSeries is composed of the following subset Series: GSE4093: Resveratrol treatment of daf-16 mutant C. elegans GSE4094: N2 worms treated with Resveratrol GSE4095: Sir-2.1 low copy transgenic Abstract: C. elegans SIR-2.1, a member of the Sir-2 family of NAD(+)-dependent protein deacetylases, has been shown to regulate nematode aging via the insulin/IGF pathway transcription factor daf-16. Treatment of C. elegans with the small molecule resveratrol, however, extends life span in a manner fully dependent upon sir-2.1, but independent of daf-16. Microarray analysis of worms treated with resveratrol demonstrates the transcriptional induction of a family of genes encoding prion-like glutamine/asparagine-rich proteins involved in endoplasmic reticulum (ER) stress response to unfolded proteins. RNA interference of abu-11, a member of this ER stress gene family, abolishes resveratrol-mediated life span extension, and overexpression of abu-11 extends the life span of transgenic animals. Furthermore, SIR-2.1 normally represses transcription of abu-11 and other ER stress gene family members, indicating that resveratrol extends life span by inhibiting sir-2.1-mediated repression of ER stress genes. Our findings demonstrate that abu-11 and other members of its ER stress gene family are positive determinants of C. elegans life span. Refer to individual Series

Project description:Abstract: C. elegans SIR-2.1, a member of the Sir-2 family of NAD(+)-dependent protein deacetylases, has been shown to regulate nematode aging via the insulin/IGF pathway transcription factor daf-16. Treatment of C. elegans with the small molecule resveratrol, however, extends life span in a manner fully dependent upon sir-2.1, but independent of daf-16. Microarray analysis of worms treated with resveratrol demonstrates the transcriptional induction of a family of genes encoding prion-like glutamine/asparagine-rich proteins involved in endoplasmic reticulum (ER) stress response to unfolded proteins. RNA interference of abu-11, a member of this ER stress gene family, abolishes resveratrol-mediated life span extension, and overexpression of abu-11 extends the life span of transgenic animals. Furthermore, SIR-2.1 normally represses transcription of abu-11 and other ER stress gene family members, indicating that resveratrol extends life span by inhibiting sir-2.1-mediated repression of ER stress genes. Our findings demonstrate that abu-11 and other members of its ER stress gene family are positive determinants of C. elegans life span. This SuperSeries is composed of the SubSeries listed below.

Project description:To identify DAF-16-dependent transcriptional alterations that occur in a long-lived C. elegans strain, we used cDNA microarrays and genomic analysis to identify putative direct and indirect DAF-16 transcriptional target genes. Set of arrays organized by shared biological context, such as organism, tumors types, processes, etc. Keywords: Logical Set

Project description:We confirmed that the life span of C. elegans feeding hns mutant E. coli was increased. hns mutant E. coli was found to regulate lifespan of C. elegans through daf-16 activation in C. elegans. It is well known that daf-16 is the transcription factor of the insulin/IGF-1 signaling pathway and it is known to regulate downstream genes such as longevity, stress response, and dauer diapause regulation genes. Thus, we performed Next Generation Sequencing(NGS) to investigate the downstream genes regulated by daf-16 in C. elegans that are activated by hns mutant E. coli. N2 wild type worms and daf-16 mutant worms were fed with BW25113 wild type E. coli and hns mutant E. coli, respectively, and then NGS was performed by harvesting the worms and purifying the RNA. We investigated how the downstream genes of daf-16 of C. elegans, which is regulated by hns mutant E. coli, differs from the downstream genes of daf-16 of C. elegans, which is regulated by the insulin/IGF-1 signaling pathway. To do this, we carried out the analysis including two previous studied papers that analyzed the daf-16 downstream genes related to the insulin/IGF-1 signaling pathway. Surprisingly, only 6 genes were up-regulated in all three experiments and 288 genes were found to be dependent on daf-16 and hns mutant E. coli. This study indicated that hns mutant E. coli regulate daf-16 distinct from insulin/IGF-1 signaling pathway on C. elegans.

Project description:Expression analysis of C. elegans genes daf-9 and daf-12 mutant

Project description:Transcriptional outputs of the Caenorhabditis elegans forkhead protein DAF-16

Project description:Insulin/IGF-1 Signaling (IIS) is known to constrain longevity by inhibiting the transcription factor FOXO. How phosphorylation mediated by IIS kinases regulates lifespan beyond FOXO remains unclear. Here, we profile IIS-dependent phosphorylation changes in a large-scale quantitative phosphoproteomic analysis of wild-type and three IIS mutant Caenorhabditis elegans strains. We quantify more than 15,000 phosphosites and find that 476 of these are differentially phosphorylated in the long-lived daf-2/insulin receptor mutant. We develop a machine learning-based method to prioritize 25 potential lifespan-related phosphosites. We perform validations to show that AKT-1 pT492 inhibits DAF-16/FOXO and compensates the loss of daf-2 function, that EIF-2α pS49 potently inhibits protein synthesis and daf-2 longevity, and that reduced phosphorylation of multiple germline proteins apparently transmits reduced DAF-2 signaling to the soma. In addition, an analysis of kinases with enriched substrates detects that casein kinase 2 (CK2) subunits negatively regulate lifespan. Our study reveals detailed functional insights into longevity.

Project description:DAF-16/FoxO and EGL-27/GATA promote developmental growth in response to persistent somatic DNA damage [N2, daf-2, daf-16, daf-2 daf-16]

Project description:Adult C. elegans: Control daf-2 mutants treated with daf-16 RNAi vs. daf-2 mutants treated with empty vector RNAi

Project description:Expression analysis of C. elegans wild-type N2 and rsks-1, daf-2, daf-2 rsks-1 and daf-16 daf-2 rsks-1 mutants