| Spargel | — | Tissue-specific overexpression of dPGC-1 in stem and progenitor cells within the digestive tract of females flies extends the mean and maximum lifespan of females by up to 33% and 37%. Those mutants display a delay in the onset of aging-related changes in the intestine, leading to improved tissue homoeostasis in old flies [22055505]. | Fruit fly |
| 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 | sod1 superoxide dismutase 1, soluble | Overexpression of sod1 in C. elegans increases mean, median, and maximum lifespan by 21, 25, and 29% [22737090]. | — |
| 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 |
| sod-1 | SOD (superoxide dismutase) | sod-1 overexpression increases mean, median, and maximum lifespan by 32, 25, and 35% [22737090]. | Nematode |
| 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 |
| sm | smooth | Overexpression of sm in males increases mean and maximum lifespan by 29% and and 16%, respectively [22366109]. | Fruit fly |
| skn-1 | SKiNhead 1 | RNA interference of or mutations in skn-1 prevent the life-extension effects of dietary restriction [17538612]. skn-1 transgenes that overexpress a constitutive nuclear form of SKN-1 in the intestine extend the mean lifespan by 5-21%, independently of DAF-16 [18358814]. skn-1 mutation does not alter lifespan under AL, but cancels out the lifespan extension effect of lDR or food variation at all. Response to lDR in skn-1 mutant is restored by ectopic expression of skn-1 in ASI neurons and gut. Ectopic expression of skn-1b in ASI neurons rescued lDR longevity defects of skn-1. Ablation of ASI neurons completely suppresses the response to DR in wild-type or daf-16 mutants and cause a small increase in basal longevity of wild-type but not daf-16 mutants. lDR significantly increases SKN-1 expression in ASI neurons. lDR worms exhibit elevated respiration, which is absent in skn-1 mutants. skn-1 is necessary for increased respiration and the increase in respiration is necessary for lDR longevity effect, because two different inhibitors of mitochondrial electron transport chain complex III, myxothiazol and antimycin, suppress lDR longevity without shortening lifespan under AL. In contrast, the long life of a daf-2 mutant is not affected by antimycin. Some isoforms of SKN-1 are expressed from an operon downstream of bec-1. Beclin-1 mediates autophagy induced by nutrient deprivation. Therefore, skn-1 might be regulated by nutritional stress [17538612]. IF significantly extends lifespan of skn-1 mutants [19079239]. sDR extends lifespan of a skn-1 loss-of-function mutant (which displays a premature stop codon in all three isoforms) and wild-type to a similar extent [19239417].
skn-1(zu67) mutation decreases mean, median, and maximum lifespan by 11-23, 13-28 and 12-23%, respectively, and totally cancels out lifespan extension by ragc-1 RNAi [22560223].
| Nematode |
| Sirt6 | sirtuin 6 (silent mating type information regulation 2, homolog) 6 (S. cerevisiae) | Sirt6 knockout mice develop signs of premature ageing including a short lifespan [16439206].
Overexpression of Sirt6 in male mice lengthens the median lifespan by 9.9-14.5% and maximum lifespan by 13.1-15.8% [22367546].
Mice without Sirt6 have a higher risk of gastrointestinal cancers. SIRT6 dampens cancer growth by repressing aerobic glycolysis (i.e. conversion of glucose to lactate; a major feature of cancer cells). Loss of Sirt6 increases the number, size and aggressiveness of tumors. Sirt6 loss leads to tumor formation even without activation of oncogenes. Transformed SIRT6-deficient cells exhibit increased glycolysis and tumor growth. Sirt6 inhibits the transcriptional activity of the oncogene Myc via corepression [23217706]. Sirt6 also protects against diet-induced obesity [http://www.biocompare.com/Life-Science-News/127206-Anti-Aging-Gene-Identified-As-Tumor-Suppressor-In-Mice-Research-Finds/].
| House mouse |
| SIR4 | Silent information regulator 4 | Deletion of SIR4 results in 20-25% reduction of lifespan [10521401]. SIR4 deletion mutants exhibit loss of silencing at the silent mating type loci [3297920] and telomeres [1913809] and have slightly elevated level of rDNA marker loss [10521401]. The short lifespan of a SIR4 mutant is probably due to the simultaneous expression of a and alpha mating-type information, which indirectly causes an increase in rDNA recombination and likely increases the production of extrachromosomal rDNA circles. Lifespan reduction by SIR4 deletion is suppressed by preventing mating type heterozygosity (co-expression of MATa and MATalpha). The sir4-42 mutation extends lifespan of by more than 30% and is semidominant in Bx1-14c strain which carrys a C-terminal truncation of MPT5/UTH4. sir4-42 extends lifespan by preventing recruitment of the SIR proteins to HM loci and telomeres, thereby increasing their concentration at other chromosomal regions. Expression of only the carboxyl terminus of SIR4 interferes with silencing at HM loci and telomere, which also extends lifespan [7859289]. Both Sir3 and Sir4 relocate to the nucleolus in the sir4-42 mutant background, dependent upon MPT5 and YGL023. sir4-42 has no effect on lifespan in a UTH4 wild-type strain background [9150138]. sir-4-42 results in constitutive localization of SIR3 to the rDNA. Lifespan extension by sir4-42 is likely due to increased dosage of SIR2 at the rDNA [10521401]. | Budding yeast |
| SIR2RP1 | NAD-dependent SIR2 | Overexpression of SIR2RP1 results in a significant increase in survival of the vertebrate stage under normla axenic culture conditions, but has no effect on survival of the insect stage of the parasite. SIR2RP1 is mainly localized within the cytoplasm [12383511]. | — |
| SIR2 | Silent Information Regulator 2 | Deletion of SIR2 shortens replicative lifespan by approximately 30%. Integration of a second copy of SIR2 into the wild-type strain leads to an extension of replicative lifespan by around 35% in W303R strain [10521401]. Deletion of SIR2 causes genomic instability at rDNA array [2647300] and shortens replicative lifespan by 50% [11000115]. 0.5% glucose restriction fails to increase the short lifespan of sir2Delta [11000115] probably duo to hyperaccumulations of extrachromosomal rDNA circles (ERCs) [16311627]. 0.1% glucose restriction extends replicative lifespan of sir2 mutants [12213553]. 0.5, 0.1 and 0.05% glucose restriction are able to increase lifespan of sir2;fob1 double mutant to a greater extent than in wild-type [15328540]. 0.05% glucose restriction further extends replicative lifespan of SIR2 overexpression mutant [15328540]. Sir2 blocks extreme chronological lifespan extension as the lack of Sir2 along with DR and/or mutations in the yeast AKT homolog, Sch9, or Ras pathways causes a dramatic chronological lifespan extension (6-fold) [16286010]. Sir2 inhibits formation of ERCs and acts on histones as well metabolic enzymes among others. Overexpression extends replicative lifespan in several strains, but not in PSY316 [15684413].
Chronological lifespan of sir2 deletion mutant is significantly extended compared with wild-type in water (extreme DR) but not in saturated cultures containing 2% glucose (ad libitum).
SIR2 mutants are defective for telomere [1913809] and HM silencing [6098447; 3297920]. have increased rDNA recombination [2647300] and a loss of rDNA silencing [9009207; 9009206].
| Budding yeast |
| Sir2 | — | Overexpression of Sir2 (alias dSir2) extends lifespan by up to 57% and specifically median lifespan by 40-60%, whereas a decrease in Sir2 activity by mutation blocks the life-extending effect of caloric reduction or rpd3 mutations [15520384]. rpd3 mutants fed normal food and wild-type fed a low-calorie diet increase dSir2 expression two-fold [12459580]. Sir2 mutation does not reduce lifespan under AL. Ubiquitous Sir2 overexpression causes a 4-fold increase in Sir2 mRNA expression and an up to 57% increase in average lifespan (29% for females and 18% for males). A 10 - 20% increase in Sir2 mRNA levels causes no lifespan extension. High levels of Sir2 protein is found in nuclei of neurons and in nuclei and cytoplasm of fat body cells. Neuronal Sir2 overexpression extends average lifespan by 52% in females and 20% in males. Motor-neuronal specific expression fails to cause lifespan extension. Flies with no or with several decreased Sir2 gene function have no lifespan extension under DR. DR fails to cause further increase in lifespan or even reduces lifespan toward normal of Sir2 overexpression mutants. Mild Sir2 overexpression in the fat-body extends lifespan and reduces relative body fat content in both males and females [22661237].
Sir2 in the adult fat body regulates longevity in a diet-depending manner. A diet-dependent lifespan phenotype of Sir2 perturbations (both knockdown and overexpression) in the fat-body, but not in muscles, negates the effects of background genetic mutants. Sir2 knockdown abrogates fat-body dFoxo-dependent lifespan extension [23246004].
Decreased expression of Sir2 and Sir2-like genes in all cells causes lethality during development. Suppression of the Sir2 in neurons decreases the median lifespan by 10-30%, while ubiquitinous silinecing of the Sir2-like genes shortens lifespan. The effects are server at 28°C that at 25°C [17159295]. | 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 |
| Sin3A | — | Overexpression of Sin3A increases mean and maximum lifespan by 13% and 3%, respectively [22366109]. | Fruit fly |
| SIFR | SIFamide receptor | Overexpression of SIFR in males extends mean and maximum lifespan by 23% and 3%, respectively [22366109]. | Fruit fly |
| SAG12 | — | Introduction of a SAG12 via bacterial gene transfer (pSAG12:ipt) increases longevity. The gene results in enhanced production of the hormone Cytokinin which affects growth and development as well as stimulates cell division and thereby extends the lifespan. pSAG::ipt transgenic plants exhibit delayed leaf senescence, increased branching and reduced internodal length. The leaves and flowers of the pSAG12:ipt plants are reduced in size and display a more intense coloration [http://www.wissenschaft.de/wissenschaft/news/316062.html; http://www.biomedcentral.com/1471-2229/12/156/abstract; Garcia-Sogo et al. 2012]. | — |
| RPL6A | Ribosomal Protein of the Large subunit 6A | Deletion of RPL6A decrease mean replicative lifespan by 25% in the alpha strain [18340043; 18423200], but increases mean replicative lifespan by 40% in the remade strain. Its deletion non-significantly increases mean replicative lifespan in the ORF collection [22377630]. | Budding yeast |
| Rdh | Red herring | Overexpression of Rdh from a doxycycline-inducible promoter results in a 6-17% increase in mean lifespan [12620118].
Rdh is an open reading frame in the first intron of the encore gene [12620118]. | Fruit fly |
| Pten | phosphatase and tensin homolog | Increasing gene dosage via homogeneous and moderate overexpression, while retaining its normal pattern of tissue expression of Pten increases mean, median and maximum lifespan in both females and males. Mean lifespan is extended by 18% (males), 11% (females) and 14% (both). Median lifespan in males, females and both increases by 12%, 16% and 12%, respectively [22405073]. Transgenic Pten mice carrying the additional genomic copies of Pten are protected from cancer and present a significant extension of lifespan that is independent of their lower cancer incidence. Pten(g) mice have an increased energy expenditure and protection from metabolic pathologies [22405073].
PTEN promotes oxidative phosphorylation and decreases glycolysis. PTEN aslo upregulates UCP1 expression in brown adipocytes, which enhances their nutrient burning capacity and decreases adiposity and associated pathologies [23245767]
| House mouse |
| Pten | — | Increased Pten and 4E-BP activity in muscles is extends the lifespan [21111239]. | Fruit fly |
| Prx5 | Peroxiredoxin 5 | Prx5 overexpression causes an increase in mean and median lifespan under normal conditions. It also leads to a small increase in maximum lifespan.
dprx5(-/-) null mutants are comparatively more susceptible to oxidative stress, have higher incidence of apoptosis, and a shortened mean lifespan, but thee is no significant difference in maximum lifespan (10% survival) [21826223]. | Fruit fly |
| POSH | Plenty of SH3s | Neural-specific overexpression of POSH extends the mean lifespan of adult flies by 14% at 25°C. Ectopic expression of POSH during development results in morphological abnormalities [11868902]. | Fruit fly |
