bec-1;daf-2;fem-1;fer-15

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Genetic mutants with bec-1, daf-2, fem-1, fer-15 alterations

Names of genes are ordered alphabetically. For the order of interventions, please see the specific paper.

Temperature °C
20
Diet
OP50
Lifespan (days)
21.3
Lifespan comparisons
Quadruple mutant bec-1(RNAi);daf-2(mu150);fem-1(hc17);fer-15(b26) has a lifespan of 21.3 days, while triple mutant daf-2(mu150);fem-1(hc17);fer-15(b26) has a lifespan of 30.9 days.
Citation
View abstract
Hansen M et al., 2008, A role for autophagy in the extension of lifespan by dietary restriction in C. elegans. PLoS Genet. 4(2):e24 18282106 Click here to select all mutants from this PubMed ID in the graph
Abstract
In many organisms, dietary restriction appears to extend lifespan, at least in part, by down-regulating the nutrient-sensor TOR (Target Of Rapamycin). TOR inhibition elicits autophagy, the large-scale recycling of cytoplasmic macromolecules and organelles. In this study, we asked whether autophagy might contribute to the lifespan extension induced by dietary restriction in C. elegans. We find that dietary restriction and TOR inhibition produce an autophagic phenotype and that inhibiting genes required for autophagy prevents dietary restriction and TOR inhibition from extending lifespan. The longevity response to dietary restriction in C. elegans requires the PHA-4 transcription factor. We find that the autophagic response to dietary restriction also requires PHA-4 activity, indicating that autophagy is a transcriptionally regulated response to food limitation. In spite of the rejuvenating effect that autophagy is predicted to have on cells, our findings suggest that autophagy is not sufficient to extend lifespan. Long-lived daf-2 insulin/IGF-1 receptor mutants require both autophagy and the transcription factor DAF-16/FOXO for their longevity, but we find that autophagy takes place in the absence of DAF-16. Perhaps autophagy is not sufficient for lifespan extension because although it provides raw material for new macromolecular synthesis, DAF-16/FOXO must program the cells to recycle this raw material into cell-protective longevity proteins.

Temperature °C
20
Diet
OP50
Lifespan (days)
25.4
Lifespan change (compared to wild type)
45.14%
Lifespan comparisons
Quadruple mutant bec-1(RNAi);daf-2(mu150);fem-1(hc17);fer-15(b26) has a lifespan of 25.4 days, while single mutant bec-1(RNAi) has a lifespan of 18.9 days, triple mutant daf-2(mu150);fem-1(hc17);fer-15(b26) has a lifespan of 28.4 days and wild type has a lifespan of 17.5 days.
Citation
View abstract
Hansen M et al., 2008, A role for autophagy in the extension of lifespan by dietary restriction in C. elegans. PLoS Genet. 4(2):e24 18282106 Click here to select all mutants from this PubMed ID in the graph
Abstract
In many organisms, dietary restriction appears to extend lifespan, at least in part, by down-regulating the nutrient-sensor TOR (Target Of Rapamycin). TOR inhibition elicits autophagy, the large-scale recycling of cytoplasmic macromolecules and organelles. In this study, we asked whether autophagy might contribute to the lifespan extension induced by dietary restriction in C. elegans. We find that dietary restriction and TOR inhibition produce an autophagic phenotype and that inhibiting genes required for autophagy prevents dietary restriction and TOR inhibition from extending lifespan. The longevity response to dietary restriction in C. elegans requires the PHA-4 transcription factor. We find that the autophagic response to dietary restriction also requires PHA-4 activity, indicating that autophagy is a transcriptionally regulated response to food limitation. In spite of the rejuvenating effect that autophagy is predicted to have on cells, our findings suggest that autophagy is not sufficient to extend lifespan. Long-lived daf-2 insulin/IGF-1 receptor mutants require both autophagy and the transcription factor DAF-16/FOXO for their longevity, but we find that autophagy takes place in the absence of DAF-16. Perhaps autophagy is not sufficient for lifespan extension because although it provides raw material for new macromolecular synthesis, DAF-16/FOXO must program the cells to recycle this raw material into cell-protective longevity proteins.

Temperature °C
20
Diet
OP50
Lifespan (days)
27.4
Lifespan change (compared to wild type)
39.09%
Lifespan comparisons
Quadruple mutant bec-1(RNAi);daf-2(mu150);fem-1(hc17);fer-15(b26) has a lifespan of 27.4 days, while single mutant bec-1(RNAi) has a lifespan of 19.0 days, triple mutant daf-2(mu150);fem-1(hc17);fer-15(b26) has a lifespan of 31.0 days and wild type has a lifespan of 19.7 days.
Citation
View abstract
Hansen M et al., 2008, A role for autophagy in the extension of lifespan by dietary restriction in C. elegans. PLoS Genet. 4(2):e24 18282106 Click here to select all mutants from this PubMed ID in the graph
Abstract
In many organisms, dietary restriction appears to extend lifespan, at least in part, by down-regulating the nutrient-sensor TOR (Target Of Rapamycin). TOR inhibition elicits autophagy, the large-scale recycling of cytoplasmic macromolecules and organelles. In this study, we asked whether autophagy might contribute to the lifespan extension induced by dietary restriction in C. elegans. We find that dietary restriction and TOR inhibition produce an autophagic phenotype and that inhibiting genes required for autophagy prevents dietary restriction and TOR inhibition from extending lifespan. The longevity response to dietary restriction in C. elegans requires the PHA-4 transcription factor. We find that the autophagic response to dietary restriction also requires PHA-4 activity, indicating that autophagy is a transcriptionally regulated response to food limitation. In spite of the rejuvenating effect that autophagy is predicted to have on cells, our findings suggest that autophagy is not sufficient to extend lifespan. Long-lived daf-2 insulin/IGF-1 receptor mutants require both autophagy and the transcription factor DAF-16/FOXO for their longevity, but we find that autophagy takes place in the absence of DAF-16. Perhaps autophagy is not sufficient for lifespan extension because although it provides raw material for new macromolecular synthesis, DAF-16/FOXO must program the cells to recycle this raw material into cell-protective longevity proteins.

Temperature °C
20
Diet
OP50
Lifespan (days)
26.8
Lifespan change (compared to wild type)
37.44%
Lifespan comparisons
Quadruple mutant bec-1(RNAi);daf-2(mu150);fem-1(hc17);fer-15(b26) has a lifespan of 26.8 days, while single mutant bec-1(RNAi) has a lifespan of 18.5 days, triple mutant daf-2(mu150);fem-1(hc17);fer-15(b26) has a lifespan of 34.1 days and wild type has a lifespan of 19.5 days.
Citation
View abstract
Hansen M et al., 2008, A role for autophagy in the extension of lifespan by dietary restriction in C. elegans. PLoS Genet. 4(2):e24 18282106 Click here to select all mutants from this PubMed ID in the graph
Abstract
In many organisms, dietary restriction appears to extend lifespan, at least in part, by down-regulating the nutrient-sensor TOR (Target Of Rapamycin). TOR inhibition elicits autophagy, the large-scale recycling of cytoplasmic macromolecules and organelles. In this study, we asked whether autophagy might contribute to the lifespan extension induced by dietary restriction in C. elegans. We find that dietary restriction and TOR inhibition produce an autophagic phenotype and that inhibiting genes required for autophagy prevents dietary restriction and TOR inhibition from extending lifespan. The longevity response to dietary restriction in C. elegans requires the PHA-4 transcription factor. We find that the autophagic response to dietary restriction also requires PHA-4 activity, indicating that autophagy is a transcriptionally regulated response to food limitation. In spite of the rejuvenating effect that autophagy is predicted to have on cells, our findings suggest that autophagy is not sufficient to extend lifespan. Long-lived daf-2 insulin/IGF-1 receptor mutants require both autophagy and the transcription factor DAF-16/FOXO for their longevity, but we find that autophagy takes place in the absence of DAF-16. Perhaps autophagy is not sufficient for lifespan extension because although it provides raw material for new macromolecular synthesis, DAF-16/FOXO must program the cells to recycle this raw material into cell-protective longevity proteins.

Temperature °C
20
Diet
OP50
Lifespan (days)
24.0
Lifespan change (compared to wild type)
21.21%
Lifespan comparisons
Quadruple mutant bec-1(RNAi);daf-2(mu150);fem-1(hc17);fer-15(b26) has a lifespan of 24.0 days, while single mutant bec-1(RNAi) has a lifespan of 19.8 days, triple mutant daf-2(mu150);fem-1(hc17);fer-15(b26) has a lifespan of 32.7 days and wild type has a lifespan of 19.8 days.
Citation
View abstract
Hansen M et al., 2008, A role for autophagy in the extension of lifespan by dietary restriction in C. elegans. PLoS Genet. 4(2):e24 18282106 Click here to select all mutants from this PubMed ID in the graph
Abstract
In many organisms, dietary restriction appears to extend lifespan, at least in part, by down-regulating the nutrient-sensor TOR (Target Of Rapamycin). TOR inhibition elicits autophagy, the large-scale recycling of cytoplasmic macromolecules and organelles. In this study, we asked whether autophagy might contribute to the lifespan extension induced by dietary restriction in C. elegans. We find that dietary restriction and TOR inhibition produce an autophagic phenotype and that inhibiting genes required for autophagy prevents dietary restriction and TOR inhibition from extending lifespan. The longevity response to dietary restriction in C. elegans requires the PHA-4 transcription factor. We find that the autophagic response to dietary restriction also requires PHA-4 activity, indicating that autophagy is a transcriptionally regulated response to food limitation. In spite of the rejuvenating effect that autophagy is predicted to have on cells, our findings suggest that autophagy is not sufficient to extend lifespan. Long-lived daf-2 insulin/IGF-1 receptor mutants require both autophagy and the transcription factor DAF-16/FOXO for their longevity, but we find that autophagy takes place in the absence of DAF-16. Perhaps autophagy is not sufficient for lifespan extension because although it provides raw material for new macromolecular synthesis, DAF-16/FOXO must program the cells to recycle this raw material into cell-protective longevity proteins.

Temperature °C
20
Diet
OP50
Lifespan (days)
22.6
Lifespan comparisons
Quadruple mutant bec-1(RNAi);daf-2(mu150);fem-1(hc17);fer-15(b26) has a lifespan of 22.6 days, while triple mutant daf-2(mu150);fem-1(hc17);fer-15(b26) has a lifespan of 30.9 days.
Citation
View abstract
Hansen M et al., 2008, A role for autophagy in the extension of lifespan by dietary restriction in C. elegans. PLoS Genet. 4(2):e24 18282106 Click here to select all mutants from this PubMed ID in the graph
Abstract
In many organisms, dietary restriction appears to extend lifespan, at least in part, by down-regulating the nutrient-sensor TOR (Target Of Rapamycin). TOR inhibition elicits autophagy, the large-scale recycling of cytoplasmic macromolecules and organelles. In this study, we asked whether autophagy might contribute to the lifespan extension induced by dietary restriction in C. elegans. We find that dietary restriction and TOR inhibition produce an autophagic phenotype and that inhibiting genes required for autophagy prevents dietary restriction and TOR inhibition from extending lifespan. The longevity response to dietary restriction in C. elegans requires the PHA-4 transcription factor. We find that the autophagic response to dietary restriction also requires PHA-4 activity, indicating that autophagy is a transcriptionally regulated response to food limitation. In spite of the rejuvenating effect that autophagy is predicted to have on cells, our findings suggest that autophagy is not sufficient to extend lifespan. Long-lived daf-2 insulin/IGF-1 receptor mutants require both autophagy and the transcription factor DAF-16/FOXO for their longevity, but we find that autophagy takes place in the absence of DAF-16. Perhaps autophagy is not sufficient for lifespan extension because although it provides raw material for new macromolecular synthesis, DAF-16/FOXO must program the cells to recycle this raw material into cell-protective longevity proteins.

Search genes: bec-1 daf-2 fem-1 fer-15 bec-1;daf-2;fem-1;fer-15

Entrez ID
Symbol
GenAge
Wormbase ID

177345
bec-1
View on GenAge (bec-1)
WBGene00000247

Beclin homolog

Locus: CELE_T19E7.3

Wormbase description: bec-1 encodes a coiled-coil protein orthologous to the yeast and mammalian autophagy proteins Atg6/Vps30/Beclin1; by homology, BEC-1 may be part of a Class III phosphatidylinositol 3-kinase complex that plays a role in localizing autophagy proteins to preautophagosomal structures and overexpression of C. elegans bec-1 in S. cerevisiae APG6/VPS30 mutants can rescue associated autophagy defects; bec-1 is also required for regulation of endocytic retrograde transport; in C. elegans, bec-1 activity is required for normal dauer morphogenesis and survival of dauer larvae, as well as for adult life span extension of daf-2(e1370) mutants at 15 degrees; in addition, bec-1(RNAi) indicates a role for bec-1 in normal growth rates, movement, and vulval morphogenesis; a bec-1::GFP reporter fusion is expressed in the hypodermis, intestine, nervous system, pharynx, and reproductive organs, all tissues that are remodeled during dauer larval development.

Entrez ID
Symbol
GenAge
Wormbase ID

175410
daf-2
View on GenAge (daf-2)
WBGene00000898

Insulin-like receptor subunit beta;Receptor protein-tyrosine kinase;hypothetical protein

Locus: CELE_Y55D5A.5

Wormbase description: daf-2 encodes a receptor tyrosine kinase that is the C. elegans insulin/IGF receptor ortholog; DAF-2 activity is required for a number of processes in C. elegans, including embryonic and larval development, formation of the developmentally arrested dauer larval stage (diapause), larval developmental timing, adult longevity, reproduction, fat storage, salt chemotaxis learning, and stress resistance, including response to high temperature, oxidative stress, and bacterial infection; DAF-2 signals through a conserved PI 3-kinase pathway to negatively regulate the activity of DAF-16, a Forkhead-related transcription factor, by inducing its phosphorylation and nuclear exclusion; in addition, DAF-2 negatively regulates the nuclear localization, and hence transcriptional activity, of SKN-1 in intestinal nuclei; amongst the 38 predicted insulin-like molecules in C. elegans, genetic and microarray analyses suggest that at least DAF-28, INS-1, and INS-7 are likely DAF-2 ligands; genetic mosaic and tissue-specific promoter studies indicate that daf-2 can function cell nonautonomously and within multiple cell types to influence dauer formation and adult lifespan, likely by regulating the production of secondary endocrine signals that coordinate growth and longevity throughout the animal; temporal analysis of daf-2 function indicates that daf-2 regulates lifespan, reproduction, and diapause independently, at distinct times during the animal's life cycle.

Entrez ID
Symbol
GenAge
Wormbase ID

177335
fem-1
View on GenAge (fem-1)
WBGene00001411

Sex-determining protein fem-1

Locus: CELE_F35D6.1

Wormbase description: The fem-1 gene encodes an ankyrin repeat-containing protein orthologous to human FEM1A and is required for masculinization of germline and somatic tissues; FEM-1 is widely expressed and functions as a second messenger in the sex determination pathway, connecting the membrane protein TRA-2A to the transcription factor TRA-1A which it negatively regulates; FEM-1 may also play a role in apoptosis, as it is a substrate for the CED-3 protease and can induce apoptosis when overexpressed in mammalian cells.

Symbol
GenAge

fer-15
View on GenAge (fer-15)

No gene information for fer-15

Orthologs of bec-1;daf-2;fem-1;fer-15 in SynergyAge

Show in SynergyAge
Species	Gene

Not in SynergyAge
Species	Gene
Mus musculus	Becn1;Insr
Mus musculus	Becn1;Igf1r
Mus musculus	Becn1;Insrr

Orthologs of bec-1 in SynergyAge

Show in SynergyAge
Species	Gene

Not in SynergyAge
Species	Gene
Drosophila melanogaster	Atg6
Mus musculus	Becn1

Orthologs of daf-2 in SynergyAge

Show in SynergyAge
Species	Gene
Drosophila melanogaster	InR

Not in SynergyAge
Species	Gene
Mus musculus	Insr
Mus musculus	Igf1r
Mus musculus	Insrr

Orthologs of fem-1 in SynergyAge

Show in SynergyAge
Species	Gene

Orthologs of fer-15 in SynergyAge

Show in SynergyAge
Species	Gene