Factors

We need to know every factor which determines lifespan.

Lifespan factors often but not always originate from defined genetic elements. They are not just genes, by definition they can be anything for which a Classifications schema can be build for that is related to the regulation of lifespan, such entities may include Single-Nucleotide Polymorphism, transcript variants, proteins and their complexes, compounds (i.e. small molecules like metabolites and drugs), etc. A factor should be based on a defined molecular entity or genomic position and been classified. It shall be highly flexible and scalable Concept.

While individual lifespan factors within each species or precise defined molecular entities will be captured within the Lifespan App, Data Entries of the Data App may summarize for instance the relevance of each factor class (e.g. homologous group; chemical derivate of related structure and properties, etc.) as well as draw overall conclusions. o

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  • symbol name observation species
    aak-2 AMP-Activated Kinase 2 AAK-2 could be a sensor that couples energy levels and insulin-like signals to lifespan. aak-2(ok524) knockout mutants have a 12% and 18% shorter mean and maximum lifespan, respectively as well as faster age-dependent accumulation of a lipofuscin-like fluorescent pigment in the intestine [15574588]. sDR increases AMP:ATP ratio. aak-2 mutation suppresses lifespan extension and delay of the decline in locomotor activity resulting from sDR. A constitutive active mutation of aak-2 is sufficient to cause increase stress resistance as well as to significantly extend lifespan. Both increased stress resistance and extended lifespan is reverted in daf-16 knockdown by RNAi. sod-3 mRNA is increased by constitutive active form of aak-2 and decreased by aak-2 mutation. The increase in sod-3 mRNA is dependent on expression of DAF-16. Worm and human AMPK phosphorylate DAF-16 (greatly enhanced by presence of AMP) at least in six residues (T166, S202, S314, S321, T463 and S466) [17900900]. aak-2 mutation cancels out the lifespan extension effect of sDR and PD, regardless of the concentration of bacteria or peptones. bDR significantly extends lifespan of aak-2 mutants, but to lesser extent than that of wild-type. eat-2 mutation extends the lifespan of aak-2 mutants to the same extent than that of wild-type. Resveratrol does not increase lifespan of aak-2 mutants [19239417]. daf-2(m577);aak-2(ok524) double mutant has a lifespan that is indistinguishable from those of aak-2(ok524) single mutant. Transgenic animals with a higher aak-2 gene dose live on average 13% longer with a maximum lifespan extension on up to 25% [15574588]. Nematode
    aakg-2 AMP-Activated protein Kinase Gamma subunit 2 aakg-2 overexpression extends mean, median, and maximum lifespan by 47, 45, and 35%. Overexpression of aakg-2 toegther with D. rerio ucp2 was non-additive with sDR [22737090]. Nematode
    AAT1 Aspartate AminoTransferase 1 Overexpression of AAT1 extends replicative lifespan by 25% and does not synergize with 0.5% glucose restriction [18381895]. Budding yeast
    abu-11 Activated in Blocked Unfolded protein response 11 Overexpression of abu-11 extends mean lifespan by 9% to 28% [16256736]. Nematode
    Akh Adipokinetic hormone Knockdown of the adipokinetic hormone (Akh) by RNAi (with an RU486-inducible and ubiquitously expressing Actin 5C-GS Gal4 strain) does not by itself affect lifespan, but significantly inhibits DR-dependent increase in lifespan across a range of yeast concentrations in both females and males. While control females and males exhibit a 113%/22% increase in lifespan under DR, upon Akh inhibition there was a significant reduction in lifespan extension with DR (52%/5%). Global Akh knockdown reduces starvation resistance by 24% upon DR, but no significant change upon AL. Also Akh RNAi repressed the DR-dependent increase in cold-stress resistance. Fat body and neuronal-specific inhibition of Akh by using RU486-inducible S(1)106-GS-Gal4 and Elav-GS-Gal4 enhancer traps, respectively, does not reduce lifespan extension upon DR. But, muscle-specific inhibition of Akh using RU486-inducible muscle enhancer trap (Mhc-GS-Gal4) reduces the DR-dependent increase in lifespan. While control exhibit a 47.2% lifespan extension, animals with muscle-specific Akh inhibition fails to result in any increase upon DR (i.e. completely blocked the DR lifespan extension). Muscle-specific Akh inhibition diminishes the increase in triglyceride synthesis and breakdown present normally under DR. A significant reduction in lifespan extension also occurs with a noninducible muscle driver (Mhc-Gal4). Controls on DR exhibit significant higher levels of spontaneous activity compared to Akh RNAi-inhibited animals at all ages. Akh inhibition reduces the protective effect of DR on age-related decline in muscle function/activity [22768842]. Fat-body specific Akh RNAi results in increased spontaneous activity and a small but significant increase in lifespan upon AL [22768842]. Overexpression of Akh in a ubiquitousness manner enhances fat metabolism (significant increase in triglyceride synthesis and breakdown under AL), spontaneous activity (148% on AL and 154% on DR), and lifespan on AL (33%). However, despite and increase in movement under DR, lifespan is not increased under a restricted diet [22768842]. Fruit fly
    Atg2 Autophagy-specific gene 2 Atg2 overexpression increases average female lifespan by 28% [18059160]. Fruit fly
    Atg8a Autophagy-related 8a Mutations in Atg8a results in reduced lifespan and increased sensitivity to oxidative stress while enhanced expression in older fly brains extends average adult lifespan by 56% and promotes resistance to oxidative stress [18059160]. Atg8a mutation reduces the maximum lifespan by 25% under starvation conditions [17617737]. Loss-of-function mutation in Atg8a reduces mean lifespan by 11 - 25% and maximum lifespan by 3 - 22% [17435236]. Fruit fly
    AVT1 Amino acid Vacuolar Transport 1 Overexpressing or deleting AVT1 is sufficient to extend or shorten replicative lifespan, respectively [23172144]. Overexpression of AVT1 prevents mitochondrial dysfunction, prevents alterations in mitochondrial structure and ΔΨ of aged cells even through the vacuolar acidity is reduced in these cells. AVT1 overexpression extends the mean, median and maximum replicative lifespan by 28, 28, and 22%, respectively [23172144]. Deletion of AVT1 accelerates the development of age-induced mitochondrial dysfunction without effecting the kinetics of vacuolar acidity decline and prevents the suppression of mitochondrial dysfunction by VMA1 and VPH2 overexpression without affecting vacuolar acidity. AVT1 deletion decreases mean, median and maximum replicative lifespan by 21, 22, and 12%, respectively [23172144]. Budding yeast
    bam bag of marbles Bam mutants have an extended lifespan due to germ cell loss. Lifespan of females is on average up to 50% higher and that of males on average s up to 27.8% higher [18434551]. Fruit fly
    BMH2 Brain Modulosignalin Homologue 2 Overexpressing 14-3-3 protein, Bmh2, significantly extends median chronological lifespan by activating stress response [19805817]. Budding yeast
    Bub1b budding uninhibited by benzimidazoles 1 homolog, beta (S. cerevisiae) Bub1b hypomorphic mutation decreases median lifespan by 60% (from 15 to 6 months) and such mutant mice that procude low levels of the protein are prone to aneuplody and develop many phenotypes suggestive of accelerated aging, including short lifespan, growth retardation, sarcopenia, lordokyphosis, progressive bilateral cataracts, substantial loss of sub dermal adipose tissue, spinal kyphosis, muscle atrophy, reduced dermal thickness and decreased wound healing [15208629; 17272762; 16781018; 18516091]. Moreover, there is a pronounced increase in senescent associated Beta-galactosidase expression in late generation Bub1b mutant mice, indicative of increased rate of cellular senescence. Homozyogous knockout of Bub1b results in lethality, while heterozygous animals exhibit no aging phenotypes [15208629]. Sustained high-level expression of BubR1 preserves genomic integrity and reduces tumorgenesis (even in the presence of genetic alterations that strongly promote aneuplodization and cancer, such as oncogenic Ras) and extends the lifespan and delays age-related deterioriation and aneuploidy in several tissues [23242215]. BubR1 overabundance exerts its protective effect by correcting mitotic checkpoints defects [23242215]. BubR1 expression level declines with age in various tissues [15208629; 17272762; 16781018]. The median and maximum lifespan of mice with a nonsense mutation 2211insGTTA in BubR1 is significantly reduced. BubR1(+/GTTA) mice develop several aging-related phenotypes at an accelerated rate, including catarct formation, lordokyphosis, skeletal muscle wasting, impaired exercise ability, and fat loss. Further BubR1(+/GTTA) mice develop mild anaplodies and exhibit enhanced growth of carcinogen-induced tumors [Wijshake et al. 2012]. House mouse
    CAT catalase Overexpression of human catalase targeted to mitochondria (MCAT) extends mean and maximum lifespan by about 20% in mice. Inactivation of aconitase in heat mitochondria and mitochondrial damage is also reduced in long-lived CAT mutant mice [15879174]. The MCAT strain has a reduced severity of age-dependent arteriosclerosis and increased genomic stability, as indicated by an decrease in oxidative stress and mitochondrial deletions in heart and muscle tissues. Median and maximum lifespan in increased about 17 - 21% [16144468].CAT was not found to be associated with longevity [15472150]. Human
    Cbs Ubiquitous or neuron-specific transgenic overexpression of Cbs enhances longevity in fully-fed animals. Cbs RNAi partially abrogates increased lifespan by DR, but has no effect on fully fed animals. Cbs upregulation is required for increased lifespan under low-nutrient conditions. Response of male flies to DR is muted in comparison with females. Adult-specific ubiquitous expression of Cbs is sufficient to increase female mean and maximum lifespan by 12 - 43% and 10%, respectively. Males, whose lifespan is relatively less affected by DR, exhibite a smaller, but still significant increase in lifespan by 7% upon Cbs overexpression. Neuronal overexpression also increases lifespan, albeit modestly (approximately 12% mean and 15% maximum lifespan extension), whereas overexpression in the fat body and in the gut has no effect [21930912]. Fruit fly
    Cct1 CTP:phosphocholine cytidylyltransferase 1 Overexpression of Cct1 from a doxycycline-inducible promoter results in a 6 - 8% increase in mean lifespan (in the PdL x rtTA; Oregon-R x rtTA strain) [12620118]. Cct1 exhibits a non-coding region difference unique to animals under experimental evolution selected for longevity and is upregulated in head of animals that were selected for longevity at all ages beyond the day of eclosion [23106705]. Fruit fly
    Cebpb CCAAT/enhancer binding protein (C/EBP), beta Replacing the Cebpa gene by Cebpb increases mean lifespan by about 20% [15289464]. C/ebpalpha(beta/beta) animals consume more food but weight less than controls [10982846], and have a slightly elevated body temperature (0.3-0.5 degree Celsius) [15289464]. House mouse
    CG10383 Overexpression of CG10383 in males increases mean and maximum lifespan by 12% and 8%, respectively [22366109]. Fruit fly
    CG10916 Mediator complex subunit 9 Overexpression of CG10916 in males increases mean and maximum lifespan by 27% and 26%, respectively [22366109]. Fruit fly
    CG13890 Overexpression of CG13890 (DCI) throughout the whole body increases mean and median lifespan by 35 and 31%, but decreases maximum lifespan by 6%, increases stress resistant (to paraquat and starvation), consistently reduces the mortality rate across adult ages and reduces the lifespan extension of DR by 15% [22997544]. CG6783 overexpression increases the dFOXO nuclear localization in the fat-body. mRNA levels of dFOXO target genes l(2)efl and 4E-BP in the adult whole bodies increases in response to overexpression of CG6783 [22997544]. Fruit fly
    CG30427 Overexpression of CG30427 in males increases mean lifespan by 18% [22366109]. Fruit fly
    cher cheerio Overexpression of cher from a doxycycline-inducible promoter results in a 7 - 9% increase in mean lifespan (in PdL x rtTA; Oregon-R x rtTA) [12620118]. Fruit fly
    Cisd2 CDGSH iron sulfur domain 2 Cisd2 knockouts expire premature ageing and reduced lifespan [19451219]. A persistent level of Cisd2 achieved by transgenic expression extends mean, median and maximum lifespan without any apparent deleterious side effects [22661501]. House mouse
    CKIepsilon casein kinase I epsilon A mutation called tau, if homozygous, shortens the circadian period (by 20%), increases metabolic rate (by 20%), and increases lifespan by 14-16% under conditions of constant darkness [12054192]. Male and female wild-type hamsters are heavier than homozygous mutants throughout the entire lifespan, and heterozygous mutants have intermediate weight [12054192]. Syrian hamster
    cst-1 Caenorhabditis STE20-like kinase 1 Knockdown of cst-1 shortens lifespan and accelerates tissue aging while its overexpression extends lifespan and delays aging in a daf-16-dependent manner [16751106]. Nematode
    ctl-1 CaTaLase 1 ctl-1 loss of function shortens lifespan to 77% of wild-type animals. ctl-1 mutants accumulate fluorescent material faster than wild-type, indicating accelerated aging [12610632]. ctl-1 mutation prevents lifespan extension by daf-2 or clk-1. Mutation of ctl-1 reudces catalase activty by 50% [10335847]. All these results have been retracted. Nematode
    daf-16 Abnormal DAuer Formation DAF-16, fork head-related transcription factor (daf-16) Mutations in daf-16 suppresses life-extension caused by mutations in daf-2 [8247153]. daf-16 is required for lifespan extension by mutation of daf-2 or age-1 [8247153]. RNAi against daf-16 decreases lifespan of wild-type, daf-2 or glp-1 mutants [22509016; 16530050]. Loss of function alleles of daf-16 shorten lifespan, but some alleles have lifespan equal to wild-type [8247153]. daf-16 mutation significantly reduces lifespan under AL (-20%), but does not prevent lifespan extension by sDR. In another experiment daf-16 mutation totally suppresses lifespan extension by sDR [16720740]. sDR does not stimulate DAF-16 translocation to the nucleus, but daf-16 mutation cancels out the ability of sDR to extend lifespan and to delay the decline in locomotor activity [17900900]. DR by bacterial dilution extends lifespan of daf-16 mutants [17538612]. daf-16 mutation decreases lifespan under AL, but fails to prevent bDR to further extend lifespan [18331616]. IF-induced lifespan-extension by either 24h/48h/72h per 4 days is significantly diminished in null mutants of daf-16. All these regimens extend lifespan of daf-16 to a lesser extent than that of wild-type. daf-16 partially mediates IF-induced longevity [19079239]. Glucose or glycerol does not shorten lifespan of daf-16 mutants [19883616]. daf-16 mutation cancels out the lifespan extension effect of sDR and PD, regardless of the concentration of bacteria or peptones. bDR significantly extends lifespan of daf-16 mutants, but to a lesser extent than that of wild-type. eat-2 mutation extends the lifespan of daf-16 mutants to the same extent than that of wild-type. Resveratrol extends lifespan of daf-16 mutants [19239417]. daf-16 RNAi completely blocks the lifespan extension by daf-2 mutation, but only partially by bDR. daf-16 RNAi attenuates protection against oxidative stress by bDR. daf-16 expression is induced by bDR [19924292]. Knockdown of daf-16 decreases mean and maximum lifespan by 50% and 54%, respectively [22509016]. DAF-16 reduces expression of rsks-1 and daf-15 [15253933; 22560223]. daf-16(mgDf47) decreases mean (18-37%) and maximum (29%) lifespan [18828672]. Overexpression of wild-type DAF-16 modestly increases lifespan by 20% [11747825], while overexpression of constitutive nuclear forms of DAF-16 increases lifespan only slightly [11381260]. daf-16(mu86) mutation decreases mean (44%) and maximum (18%) lifespan [15905404]. daf-16(mgDf47) decreases mean (18-37%) and maximum (29%) lifespan [18828672]. daf-16 mutants are dauer defective [7219552] and completely suppress all the phenotypes of daf-2 and age-1 mutations, including lifespan extension, dauer arrest, reduced fertility, and viability defects [8247153; 7789761; 9504918; 7789761]. Mutations in daf-16 also suppress lifespan extension of animals that have a germ line ablation [10360574]. Sex-specific lifespan potential requires daf-16 [10747056]. daf-16 mutation suppresses enhanced UV resistance as well as increase longevity of daf-2, daf-23, spe-26, and clk-1 mutants. Mutation in daf-16 does not alter the reduced fertility in spe-26. daf-16 mutants are more fertile than wild-type [8807294]. Nematode
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    • 25 of 170 factors
    Factors are an extension of GenAge and GenDR.

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