| Zw | Zwischenferment | Mean lifespan of G6PD overexpressor flies is extended in comparison with driver and responder controls, armadillo-GAL4 (up to 38%), Tubulin-GAL4 (up to 29%), C23-GAL4 (up to 27%), da-GAL4 (up to 24%), D42-GAL4 (up to 18%) and Appl-GAL4 (up to 16%). The maximum lifespan is also increased [18809674].
G6PD enzymatic activity as well as levels of NADPH, NADH, and the GSH/GSSG ration are increased [18809674]. | Fruit fly |
| sir-2.1 | Yeast SIR related 1 | sir-2.1 deletion slightly reduces lifespan of wild-type [16860373]. sir-2.1 overexpression extends lifespan by about 50% and this lifespan extension depends on DAF-16 activity as it is suppressed by mutation in daf-16 and it does not synergize with daf-2 [11242085]. sir-2.1 suppresses longevity of unc-13 and eat-2, but not daf-2 or unc-64 mutants. sir-2.1 is therefore partially required for lifespan extension from mutation of eat-2 [16860373], but is completely independent for lifespan extension from DR using a reduced feeding protocol [Kaeberlein et al. in press]. sDR increases lifespan of wild-type and sir-2.1 mutants to the same extent [19239417].
Overrexpression of sir-2.1 synergizes with TGF-beta mutation (daf-4 and daf-1) for dauer formation [11242085]. | Nematode |
| wwp-1 | WW domain Protein (E3 ubiquitin ligase) 1 | RNA interference of wwp-1 decreases median lifespan by 9% in wild-type animals and 24% in daf-2 mutants [18006689]. Loss of wwp-1 function by RNAi or mutation reduces lifespan at 25 degree Celsius, but not 20 degree Celsius. wwp-1 overexpression extends lifespan by up to 20%. Reduced levels of wwp-1 completely suppress the extended longevity of eat-2 mutants. Lifespan of wwp-1 mutants across entire food concentration range by bacterial dilution in liquid culture or on solid plates does not noticeable change. There is no difference in wwp-1 mRNA levels under AL and DR. RNAi reduction of pha-4, but not of daf-16 suppresses increased longevity by wwp-1 overexpression. Mutations in iron sulphur component of complex III, isp-1, increases longevity by reducing mitochondrial function. wwp-1 RNAi does not suppress the extended lifespan of isp-1 mutants and has only minor suppressive effects on lifespan of another mitochondrial mutant, clk-1, and in cyc-1 RNAi treated worms. RNAi depletion of wwp-1 has no effect on long lifespan of daf-2 mutants [19553937]. | Nematode |
| VPH2 | Vacuolar pH 2 | Overexpression of VPH2 increases the levels of assembled V-ATPase at the vacuolar membrane, increases vacuolar acidity and suppresses age-induced mitochondrial dysfunction of aged cells (17 or 18 cell divisions) which requires the V-ATPase activity. VPH2 overexpression significantly increases mean, median and maximum replicative lifespan by 23, 25 and 34%, respectively [23172144]. | Budding yeast |
| VMA1 | Vacuolar Membrane Atpase 1 | Overexpression of VMA1 increases vacuolar acidity and suppresses age-induced mitochondrial dysfunction of aged cells (17 or 18 cell divisions) which requires the V-ATPase activity. VMA1 overexpression significantly increases mean, median and maximum lifespan by 39 - 45%, 39 - 48% and 50 - 60%, respectively. DR (0.5% glucose restriction) does not further increase the lifespan of VMA1 overexpression strain [23172144].
| Budding yeast |
| VhaSFD | Vacuolar H+-ATPase SFD subunit | Overexpression of VhaSFD (from a doxycycline-inducible promoter) results in a 5-10% increase in mean lifespan [12620118]. | Fruit fly |
| Ucp2 | uncoupling protein 2 (mitochondrial, proton carrier) | Overexpression in hypocretin neurons results in mice with elevated hypothalamic temperature and reduction of core body temperature and a 12% increase in median lifespan in males and 20% increase in females. | House mouse |
| UCP2 | uncoupling protein 2 (mitochondrial, proton carrier) | Overexpression of human UCP2 in the fly nervous system extends lifespan by 10-30%. Ubiquitous overexpression is lethal [16054055]. | Human |
| ucp2 | uncoupling protein 2 | Overexpression of zebrafish's ucp2 in nematode increases mean, median, and maximum lifespan by 42, 40, and 26%, which is non-additive with sDR [22737090]. | — |
| unc-31 | UNCoordinated | Mutation in unc-31 increases hermaphrodite lifespan by approximately 70% and male lifespan by 150% [10377425; 11063684; 10747056]. unc-31 also cause constitutive dauer formation. Both phenotypes, enhanced longevity and constitutive dauer formation are suppressed by mutations in daf-16. unc-31 site of action is neuronal [10377425].
unc-31 mutants are uncoordinated [4366476] and exhibit dauer constitutive phenotype [10377425], are lethargic, feed constitutively, are defective in egg-laying, and produce dauer larvae that fail to recover [8462849]. | Nematode |
| ttll-9 | Tubulin Tyrosine Ligase Like | Knockdown of ttll-9 throughout the entire life increases the lifespan by 3% [23698443]. | Nematode |
| TrxT | Thioredoxin T | Overexpression of TrxT in neurons increases the level of locomotor activity in aged flies and extends the mean lifespan by 15% [17301052]. | Fruit fly |
| Jafrac1 | thioredoxin peroxidase 1 | Neuronal overexpression of Jafrac1 significantly increases both mean and maximum lifespan, while neuronal knockdown as well as loss of function mutation, causes a reduction in lifespan by 30%. The mean lifespan is 26% and 29% higher in females and males, respectively. The maximum lifespan is increased by 22% and 26% in females and males, respectively [19720829].
There is a consistent and significant lifespan extension (15% mean lifespan increase) in both males and females when Jafrac1 is overexpressed in somatic cells. Jafrac1 overexpression using the weaker 5961FS driver moderately but significantly extends lifespan [20976250]. | Fruit fly |
| trx-1 | ThioRedoXin 1 | Thioredoxins regulate many cellular redox processes. trx-1 is mainly associated with neurons and is expressed in ASJ ciliated sensory neurons and to some extent also on the posterior-most internal cells. trx-1 reduces protein disulfides in the presence of a heterologous thioredoxin reductase. trx-1 null mutant display reduced mean and maximum lifespan [16387300]. Mutants with a deletion in the trx-1 gene display a decrease in lifespan and are sensitive to oxidative stress [16324156]. trx-1 overexpression extends lifespan in wild-type but not in eat-2 mutants. trx-1 deletion completely suppresses the lifespan extension caused by eat-2 mutation, but only partially suppresses that by daf-2 or osm-5 mutations. Ectopic expression of trx-1 in ASJ neurons (but not in the intestine) in trx-1 mutants rescues the lifespan-extension conferred by eat-2 mutation. trx-1 overexpression extends lifespan of wild-type but not in eat-2 mutants. trx-1 deletion almost completely suppresses lifespan extension induced by dietary deprivation (DD). DD upregulates trx-1 expression in ASJ neurons. DR activates trx-1 in ASJ neurons which in turn triggers a trx-1-dependent non-cell autonomous mechanism to extend adult lifespan [21334311].
| Nematode |
| TXN | thioredoxin | Overexpression of TXN1 in transgenic C57BL/6 mice resulted in extended median (35%) and maximum (22%) lifespan. Telomerase activity in spleen tissues of TXN1 overexpressing mice is higher than tha in wild-type [12230882]. | Human |
| Tert | Telomerase reverse transcriptase | Overexpression of telomerase results in a high cancer incidence but also a modest mean (10%) and maximum lifespan extension accompanied by a lower incidence of some age-related degenerative diseases, in particular those related to kidney function and germline integrity [15688016]. Mice genetically modified to express telomerase lived 40% longer and do not develop cancer. Overexpression of Tert in mice engineered to be cancer-resistant by means of ehanced expression of p53, p16 and p19ARF (Sp53/Sp16/SARF/TgTERT) decreased telomere shortening with age, delayed aging and increases mean and median longevity by 40% [19013273]. Re-activation of telomerase in a model of premature aging caused by accelerated telomere shortening (duo to telomerase deficiency) was enough to revert some age-associated phenotypes [21113150].
Mice treated with an adeno-assoicated virus vector expressing TERT at the age of one lived 24% longer on average and those treated at the age of two, by 13%. Maximum lifespan of the mice treated at 1 and 2 years was also extended by and 13% and 20%, respectively. AAV9-mTERT treated mice also had improved health, delayed onset of age-related diseases (like osteoporosis and insulin resistance) as well as improved readings in ageing indicators like neuromuscular coordination [22585399].
The gene therapy consists of a single injected via tail vein and achieved a transduction efficiency of 20-50%. Already 1 month after treatment, the treated mice at both age groups had longer telomeres and a decrease in the short telomeres in multiple tissues, while the controls exhibit an increase in short telomerase. In contrast to their control littermates at 3 and 8 months post-treatment the blood of most of the AAV9-treated mice at 1 year had no decrease or exhibit even a net increase in average telomere length and had also no increase or even a marked decrease in percentage of short telomeres with time. Thus, the therapy achieved in perhipheral blood leukocytes a prevention of telomere shortening. Treated mice had lower leves of fasting insulin, improved glucose tolerance and better homeostatic model assessment. Two years old treated mice had higher IGF1 levels. Treated mice at both ages had improved memory scores. AAV9-mTERT treatment increased cyclinD1 positive cells in various tissues. Upon AAV9-mTERT treatment levels of p16 decreased in most organs (with exception of heart). The metabolic and mitochondrial decline in 2 years old mice treated was not as apparent as in controls [22585399]. | House mouse |
| TERT | telomerase reverse transcriptase | Telomerase-expressing cells (human foreskin fibroblasts, retinal pigment epithelial cells) maintain normal length of telomeres and continue to divide vigorously [9454332]. Cells expression telomerase have reduced staining for beta-galactosidase (a biomarker of cellular senescence) [9501072]. TERT expression is also able to prevent the accelerated replicative senescence observed in cells taken from Werner's patients [10615119].
A haplotype of TERT was correlated with both longer both longer telomere length and exceptional longevity. Mutations in TERT were overpresented in Ashkenazi centenarians [19915151].TERT was not found to be associated with longevity [22136229]. TERT was found to be associated with longevity [23562826]. | Human |
| to | TakeOut | Overexpression of to in adult neurons, pericerbral or abdonimal fat body increases male and female lifespan. to overexpression in the adult nervous system, head fat body and abdominal fat body results in 25, 20 and 12-18% increase of mean lifespan. On average the mean lifespan is extended for males and females by 18 and 26%, while maximum lifespan of male and female is increased by 13 and 25% [20519778].
Starvation, DR and many longevity mutants (like Rpd3, Sir2, chico, methusalem) all upregulate takeout (to). to is a secreted potential juvenile hormone binding protein and its induction by starvation is blocked by all arrhythmic central clock mutants [20519778; 20622267]. | Fruit fly |
| SNCA | synuclein, alpha (non A4 component of amyloid precursor) | Transgenic lines overexpressing either human wild-type or mutant (A53T) forms of the SNCA (alpha-synclein) gene under a pan-neuronal promoter live on average about 25% longer, even in weak (m577) and strong (e1370) daf-2 mutant backgrounds, and exhibited decreased pharyngeal pumping and egg-laying. Wild-type SNCA crossed into eat-2(ad1113) does not significantly effect lifespan compared to that of the background strain. Pumping rate in wild-type SCNA and A53T SCNA overexpression mutants were less than control already at day 1 of adulthood. The attenuation of lifespan exptesion by SNCA overexpression by growing on thick bacterial lawns, suggests that DR may explain some fo the effects on lifespan. SCNA overexpression increases average lifespan by 21.3% (wild-type) and 16.3% (A53T) [16782295].
Mutation of SCNA (alias alpha synclein) is associated with Parkinson's disease [9197268], which is characterized with resting tremor, rigidity bradykinesia and posural instability that are associated with selective neurodegeneration of the pigmented neurons in the brain stem (substantia nigra and locus coerues) and the presence of intracytoplasmic inclusion bodies (Lewy bodies) [Yamamura et al. 1973]. The mutated protein (Ala53Thr or Ala30Pro) may misfold, aggregate and resist degradation [11433374].SNCA was found to be associated with longevity [22912757]. SNCA was not found to be associated with longevity [22912757]. | Human |
| SSD1 | Suppressor of SIT4 Deletion 1 | Overexpression of SSD1 (addition of a SSD1-V allele) increases replicative lifespan by 50%, independently of SIR2 and SIR2 further extends the lifespan, although SIR2 is necessary for SSD1-V cells to attain maximal lifespan [15126388]. SSD1-V also dramatically increases chronological lifespan with lifespan twice as long as ssd1-d cells [19570907]. Deletion of SSD1 increases replicative lifespan by 50% [Li et al., 2009].
Addition of SSD1-V allele to an ssd1-d strain suppresses the short lifespan of an MPT5 deletion mutant [11805047] and extend wild-type lifespan [Kaeberlein and Guarente, unpublished].
SSD1-V slightly extends the lifespan of swi4 and ccr4 mutant strains and suppresses the temperature sensitive growth phenotype of mpt5, ccr3, swi4, and swi6 single mutants [11805047]. SSD1-V also suppresses the synthetic lethality caused by deletion of MPT5 in combination with a mutation in SWI4, SWI6, or CCR4 [11805047]. SSD1-V suppresses mutations that affect cell wall stability [1545797; 8386319], RNA polymerase III activity [8510644], RNA splicing [10446233], and PKA activity [1848673; 8200529]. | Budding yeast |
| Sod2 | Superoxide dismutase 2 (Mn) | RNA interference of Sod2 results in increased oxidative stress and early-onset mortality in young adults [12456885]. Overexpression of Sod2 by 5-115% decreases lifespan by 4-5% without any compensatory changes in metablic rate, level of physical activity, or the levels of other antioxidants (Sod, Cat, and glutathione) [10545213]. Targeted overexpression of Sod2 in motor neurons alone extends lifespan by 30% [11113599]. Induced overexpression of Sod2 in adult animals extends lifespan up to 37% [12072463]. Overexpression of catalase in combination with SOD2 has no added benefit for lifespan [12072463]. Animals overexpressing SOD2 or catalase do not exhibit a decrease in metabolism as measured by oxgen consumption [12072463].
Sod2 overexpression results in a 20% increase in mean and maximum lifespan [18067683]. | Fruit fly |
| SOD2 | SuperOxide Dismutase 2 | SOD2 deletion decreases replicative lifespan by 72% [17460215]. SOD2 deletion decreases chronological lifespan [21076178]. Deletion of SOD2 decreases chronological lifespan in wild-type and abolishes chronological lifespan extension in sch9Delta mutants as well as decreases chronological lifespan in cyr1:mTn mutants [12586694]. Combined overexpression of SOD1 and SOD2 extends chronological lifespan by 30% in EG103 strain [12586694].
SOD2 deletion mutants are hypersensitive to oxygen and grow poorly in ethanol [10222047]. | Budding yeast |
| SOD1 | SuperOxide Dismutase 1 | The overexpression of Sods, mitochondrial Sod2 and cytosolic CuZnSod (Sod1), in combination delays the age-dependent reversible inactivation of mitochondrial aconitase, a superoxide-sensitive enzyme, and extends chronological lifespan by 30% [12586694]. Deletion of SOD1 decreases replicative lifespan by 40% [17460215]. Overexpression of SOD1 with CCS1 levuates the level of Cn, Zn-Sod activity and increased chronological lifespan. However overexpression of SOD1 without high cooper or simultonous overexpression of CCS1 shortened both chronological and replicative lifespan [15659212]. Overexpression of SOD1 has no effect on replicative lifespan [10224252]. Deletion of SOD1 shortens replicative lifespan by approximately 40%. The magnitude of the decrease in lifespan does not appear to dependent on oxygen concentration in the atmosphere [12020810]. Deletion of SOD1 shortens replicative lifespan [10547026]. Deletion of SOD1 shortens replicative as well as chronological lifespan [10222047].
Cells with a deletion of SOD1 exhibit a profound defect in entry into and survival during stationary phase (i.e. chronological lifespan) in the W303-B strain [8647826; 10222047], which is partially suppressed by expression of human Bcl-2 [9199172].
Hypersensitivity to oxygene and significantly decreased replicative lifespan of SOD1 deletion can be ameliorated by exogenous ascorbate. If acorbate's negative effects of auto-oxidation are prevented by exchange of medium, ascorbate prolongs mean and maximum replicative lifespan in the atmosphere of air and pure oxygene [15621721].
SOD1 deletion causes sensitivity to hyperoxia as well as methionine and lysine auxotrohies [9199172].
| Budding yeast |
| Sod1 | Superoxide dismutase | Simultaneous overexpression of catalase and Sod (alias Sod1) results in a one-third lifespan extension, a slower rate of mortality acceleration, and a delayed loss in physical performance, but neither has any effect on lifespan alone [8108730]. General overexpression of Sod (also known as Cu/ZnSOD) alone is sufficient to extend lifespan by up to 48%. Simultaneous overexpression of catalase with Cu/ZnSOD has no added benefit, presumably due to a pre-existing excess of catalase [9858546]. Sod1 reduction by knockdown or knockout blunts the lifespan extension by a high sugar-low protein diet, but not a low-calorie diet [22672579].
Sod mutant flies display infertility and a reduction in lifespan [2539600]. | Fruit fly |
| SRX1 | SulfiRedoXin 1 | Extra copy of SRX1 counteracts age-related hyperoxidation of Tsa1 and extends replicative lifespan by 15 - 20% in a TSA1-dependent manner. Replicative lifespan extension in sir2;fob1 double mutant by DR is reduced by SRX1 deletion. Wild-type cells require SRX1 to fully extend lifespan. DR fails to further extend replicative lifespan of cells carrying an extra copy of SRX1. Mutation in CDC35 (adenylate cyclase), a genetic mimetic of DR, is dependent on SRX1 to extend replicative lifespan [21884982]. | Budding yeast |
