aak-2;xbp-1

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Genetic mutants with aak-2, xbp-1 alterations

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

Temperature °C
20
Diet
HT115
Lifespan (days)
16.0
Lifespan change (compared to wild type)
-20.00%
Lifespan comparisons
Double mutant aak-2(OE);xbp-1(RNAi) has a lifespan of 16.0 days, while single mutant xbp-1(RNAi) has a lifespan of 16.0 days, single mutant aak-2(OE) has a lifespan of 21.71 days and wild type has a lifespan of 20.0 days.
Type of interaction
See methods
Opposite lifespan effects of single mutants
Citation
View abstract
Hou L et al., 2016, A Systems Approach to Reverse Engineer Lifespan Extension by Dietary Restriction. Cell Metab. 23(3):529-40 26959186 Click here to select all mutants from this PubMed ID in the graph
Abstract
Dietary restriction (DR) is the most powerful natural means to extend lifespan. Although several genes can mediate responses to alternate DR regimens, no single genetic intervention has recapitulated the full effects of DR, and no unified system is known for different DR regimens. Here we obtain temporally resolved transcriptomes during calorie restriction and intermittent fasting in Caenorhabditis elegans and find that early and late responses involve metabolism and cell cycle/DNA damage, respectively. We uncover three network modules of DR regulators by their target specificity. By genetic manipulations of nodes representing discrete modules, we induce transcriptomes that progressively resemble DR as multiple nodes are perturbed. Targeting all three nodes simultaneously results in extremely long-lived animals that are refractory to DR. These results and dynamic simulations demonstrate that extensive feedback controls among regulators may be leveraged to drive the regulatory circuitry to a younger steady state, recapitulating the full effect of DR.

Temperature °C
20
Diet
HT115
Lifespan (days)
16.75
Lifespan change (compared to wild type)
-10.09%
Lifespan comparisons
Double mutant aak-2(OE);xbp-1(RNAi) has a lifespan of 16.75 days, while single mutant xbp-1(RNAi) has a lifespan of 16.43 days, single mutant aak-2(OE) has a lifespan of 21.53 days and wild type has a lifespan of 18.63 days.
Type of interaction
See methods
Opposite lifespan effects of single mutants
Citation
View abstract
Hou L et al., 2016, A Systems Approach to Reverse Engineer Lifespan Extension by Dietary Restriction. Cell Metab. 23(3):529-40 26959186 Click here to select all mutants from this PubMed ID in the graph
Abstract
Dietary restriction (DR) is the most powerful natural means to extend lifespan. Although several genes can mediate responses to alternate DR regimens, no single genetic intervention has recapitulated the full effects of DR, and no unified system is known for different DR regimens. Here we obtain temporally resolved transcriptomes during calorie restriction and intermittent fasting in Caenorhabditis elegans and find that early and late responses involve metabolism and cell cycle/DNA damage, respectively. We uncover three network modules of DR regulators by their target specificity. By genetic manipulations of nodes representing discrete modules, we induce transcriptomes that progressively resemble DR as multiple nodes are perturbed. Targeting all three nodes simultaneously results in extremely long-lived animals that are refractory to DR. These results and dynamic simulations demonstrate that extensive feedback controls among regulators may be leveraged to drive the regulatory circuitry to a younger steady state, recapitulating the full effect of DR.

Temperature °C
20
Diet
HT115
Lifespan (days)
28.29
Lifespan change (compared to wild type)
41.45%
Lifespan comparisons
Double mutant aak-2(OE);xbp-1(RNAi) has a lifespan of 28.29 days, while single mutant xbp-1(RNAi) has a lifespan of 17.23 days, single mutant aak-2(OE) has a lifespan of 23.19 days and wild type has a lifespan of 20.0 days.
Type of interaction
See methods
Enhancer, opposite lifespan effects
Citation
View abstract
Hou L et al., 2016, A Systems Approach to Reverse Engineer Lifespan Extension by Dietary Restriction. Cell Metab. 23(3):529-40 26959186 Click here to select all mutants from this PubMed ID in the graph
Abstract
Dietary restriction (DR) is the most powerful natural means to extend lifespan. Although several genes can mediate responses to alternate DR regimens, no single genetic intervention has recapitulated the full effects of DR, and no unified system is known for different DR regimens. Here we obtain temporally resolved transcriptomes during calorie restriction and intermittent fasting in Caenorhabditis elegans and find that early and late responses involve metabolism and cell cycle/DNA damage, respectively. We uncover three network modules of DR regulators by their target specificity. By genetic manipulations of nodes representing discrete modules, we induce transcriptomes that progressively resemble DR as multiple nodes are perturbed. Targeting all three nodes simultaneously results in extremely long-lived animals that are refractory to DR. These results and dynamic simulations demonstrate that extensive feedback controls among regulators may be leveraged to drive the regulatory circuitry to a younger steady state, recapitulating the full effect of DR.

Search genes: aak-2 xbp-1

Entrez ID
Symbol
GenAge
Wormbase ID

181727
aak-2
View on GenAge (aak-2)
WBGene00020142

5'-AMP-activated protein kinase catalytic subunit alpha-2

Locus: CELE_T01C8.1

Wormbase description: aak-2 encodes one of two C. elegans homologs of the catalytic alpha subunit of AMP-activated protein kinases (AMPKs); in C. elegans, aak-2 functions downstream of environmental stressors, energy level signals (AMP:ATP ratio), and daf-2-mediated insulin signaling to positively regulate adult lifespan; in regulating lifespan, aak-2 likely acts in parallel with daf-16/FOXO; aak-2 activity is also required for dauer formation in daf-2 mutant animals at high temperature in a manner independent of the AMP:ATP ratio; in the germline, aak-2 functions downstream of daf-2 and daf-7, and in parallel to par-4 and aak-1, to negatively regulate germline proliferation during dauer development; in vitro, AAK-2 exhibits AMP-enhanced kinase activity against a known AMPK substrate, the SAMS peptide.

Entrez ID
Symbol
GenAge
Wormbase ID

175541
xbp-1
View on GenAge (xbp-1)
WBGene00006959

X-box Binding Protein homolog

Locus: CELE_R74.3

Wormbase description: xbp-1 encodes a bZIP transcription factor orthologous to yeast Hac1 and mammalian X box-binding protein 1 (XBP-1, OMIM:194355); XBP-1 is required for the unfolded protein response (UPR) that counteracts cellular stress induced by accumulation of unfolded proteins in the endoplasmic reticulum (ER); xbp-1 mRNA is spliced by the IRE-1 endoribonuclease to promote translation of transcriptionally active XBP-1 that positively regulates UPR gene expression to maintain ER homeostasis and promote normal development; loss of xbp-1 activity also results in near-complete loss of myo-2 pharnygeal myosin expression, although pharyngeal muscle is still present.

Orthologs of aak-2;xbp-1 in SynergyAge

Show in SynergyAge
Species	Gene

Not in SynergyAge
Species	Gene

Orthologs of aak-2 in SynergyAge

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Species	Gene

Not in SynergyAge
Species	Gene
Drosophila melanogaster	AMPKalpha
Mus musculus	Prkaa1
Mus musculus	Prkaa2

Orthologs of xbp-1 in SynergyAge

Show in SynergyAge
Species	Gene