Interventions

  • name effect species mean median maximum
    Hells mutation A hypomorphic deletion of helicase domains 3, 4 and part of 2, leads to expression of a C-terminal truncated Hells protein causing an extremely short lifespan. with 60% of homozyogous mutants dying after birth and remaining 40% surviving up to seven weeks (around 25 days) [15105378]. Hells disruption results in genomic hypomethylation, de-repression of silenced genes, and premature aging, characterized by decreased proliferation, increased replicative senescence, and altered expression of Bmi-1 and p16INK4a. Hells mutant exhibit significant hypoglycemia, low birth weight and growth retardation, and signs of premature aging such as greying hair and balding, reduced fat deposition, unstable gait, cachexia, and kyphosis [15105378]. Mouse
    Ctf1 knockout Absence of Ctf1 is associated with decreased arterial fibrosis, stiffness mad senescence and increased longevity. Ctf1-null mice have a decrease in arterial stiffness and decrease in levels of inflammatory, apoptotic and senescence, whereas telomere-linked and DNA repair proteins as well as antioxidant enzyme activities are increased. The median lifespan of Ctf1-null mice is increased by 5 month (18%) [23172930]. Wild-type and Ctf1-null mice exhibit an increase of senescence markers (p53, Mdm2, p21, and p16) with age but are lower in Ctf1-null mice. Ctf1-null mice have a diminished vascular NFκB signaling, lower inflammation and oxidative stress and reduced senescence. Ctf1-null mice have a 12% increase in body weight, 130% increased adiponectin levels and 51% decreased leptin concentrations [23172930]. Mouse +18
    Acacb knockout Acacb-null animals (alias Acc2-/-) exhibit upon regular diet an increase triglyceride breakdown, leaner phenotype, increased insulin sensitivity and no effect on lifespan [17923673]. Mouse
    Adcy5 knockout Adcy5 knockout mice are to cardiac stress and have an increased median lifespan of 30% as well as an increased maximal lifespan of 12%. Further, they are also protected from age-related reduced bone density and susceptibility to fractures, and reduced cardiac function [17662940]. Mouse +30 +12
    Atm knockout Atm-deficient mice are viable, retarded in growth, infertile (male produce no mature sperm and female no gametes), display neurological dysfunction, and exhibit severe defects in T cell maturation while going on to develop thymomas [8917548; 8689683]. The majority of mutant mice rapidly develop thymic lymphomas and die before 4 months of age [8843194]. Cells of Atm(-/-) mice exhibit slow growth also in culture and premature senescence, telomeres are extensively shortened in multiple tissues [8689683]. Mice mutant for Atm and Terc display progressive multi-organ system compromise and features of accelerated aging [12540856]. Mouse
    Cisd2 knockout Cisd2 knockout shortens lifespan resulting in premature aging [19451219]. Mouse
    Atr knockout Deletion of Atr in young adults eliminates 80-90% of proliferating cells and results in several age-related phenotypes accompanied by a depletion of stem and progenitor cells and exhaustion of tissue renewal and homeostatic capacity [18371340]. Atr mutant mice (so called Seckle mice) exhibit high levels of replicative stress during embryogenesis, when proliferation is widespread, but this is reduced to marginal amounts in postnatal life. In spite of this decrease, adult Seckel mice display accelerated aging, which is further aggravated in the absence of p53. Seckel mice die in less than half a year, exhibit pancytopenia, cachexia and signs of premature aging, including hair graying, kyphosis, osteoporosis, accumulation of fat in the bone marrow, decreased density of hair follicles and thinner epidermis [19620979]. Mouse
    Cdkn1a knockout Deletion of Cdkna1 (alias p21) prolongs the lifespan of telomerase-deficient mice with dysfunctional telomeres and improves the repopulation capacity and self-renewal of hematopoietic stem cells [17143283]. The p21(-/-) strains like the Cdkn1a(tmi/Tyj) exhibits enormous regenerative capacities as it closes ear holes similar to MRL mice [20231440; 21722344]. Mouse
    Foxm1 deletion Deletion of Foxm1 causes age-related deterioration in liver regeneration [14647066]. Mouse
    Heterozyogous fat-specific Insr knockout (FIRKO) Deletion of Insr specifically in adipose tissue results in a 15-18% increase in mean, median and maximum lifespan. Fat-specific insulin-receptor knockout (FIRKO) reduces fat mass and protects against age-related obesity and its subsequent metabolic abnormality, without an decrease in food intake. Both male and female FIRKO mice have an increase in mean lifespan of around 134 days (18%), with parallel increases in median and maximum lifespan. FIRKO mice consume the same amount of food on per animal basis as control littermates, but have 15-25% lower body-mass and 50-70% reduced fat mass [12543978]. Disruption of Insr in all tissues reults in neonatal lethality [8612577]. Mouse +15 to +18 +15 to +18 +15 to +18
    Drd4 knockout Drd4 knockout mice, when compared with wild-type and heterozygous mice, display a 7 - 9.7% decrease in lifespan, reduced spontaneous locomotor activity, and no lifespan increase when reared in an enriched environment [23283341]. Mouse -7 to -9.7
    Efemp1 knockout Efemp1 knockout mice exhibited an early onset of aging-associated phenotypes including a 20% shorted median lifespan and 30% shorter maximum lifespan, decreased body mass, lordokyphosis, reduced hair growth, and atrophy [17872905]. Mouse +20 +30
    Fgf23 knockout Fgf23 knockouts have a short lifespan and display premature aging-like symptoms including kyphosis, muscle wasting, osteopenia, emphysema, uncoordinated movement, atherosclerosis, and atrophy of the intestinal villi, skin, thymus, and spleen [16436465]. Lack of Fgf23 activities results in extensive premature aging-like features and early mortality of Fgf-23(-/-) mice, while restoring the systemic effects of FGF-23 significantly ameliorates these phenotypes, with the resultant effect being improved growth, restored fertility, and significantly prolonged survival of double mutants [18729070]. Mouse
    Ghr knockout Ghr knockouts (the so called Laron mice) are dwarfs with significantly extended lifespan by 40-50% [12933651]. Ghr-/- mice are significantly longer lived as Ghr+/+ or Ghr+/- mice (by 40-50%) in both females and males [10875265; 19370397]. 30% DR fails to affect overall survival, average or median long-lifespan of Growth hormone receptor knockout (GHRKO) mice and increased maximal lifespan only in females. Insulin sensitivity in GHRKO mutants is greater than in wild-type and is not further increased by DR [16682650]. Intermittent fasting also fails to extend the long lifespan of GHRKO mice [19747233]. Lifespan of mice with a deletion in the Ghr gene live almost 5 years [21123740]. In C57BL/6J this mutation increases life expectancy by 16 to 26% depending on gender [12933651] and in mice of mixed genetic background the increases amounted to 36-55% [9371826]. Serum levels of GH are elevated in mutant mice [9371826] and mutants are smaller than wild-type. IGF-1 and IGFBP-3 levels are also reduced in Ghr mutant mice [10875265]. The age-associated decline in memory retention is delayed in Ghr mutants [11336996]. Mouse +16 to +55
    Trp63 knockout Heterozygous Trp632 mutant mice have a shortened lifespan (by 21.5%) and display features of accelerated aging [16107615]. The decreased longevity in Trp63(+/-) mice is almost identical to that of Trp53(+/m) mice in which enhanced Trp53 activity provides resistance to spontaneous tumors while simultaneously accelerating aging [16107615]. Trp63(+/-) are not susceptible to spontaneous tumors [16107615]. Mouse -21.5
    Heterozyogus Shc1 knockout Heterozyogus Shc1 knockout mice have an 7% increase in mean lifespan [10580504]. Mouse +7
    HNRNPD deletion HNRNPD deletion leads to accelerated aging as evidenced by strinking telomere erosion, markedly increased DNA damage repsosne at telomere ends, pronounced cellular senescence and rapid premature aging that increases with successive generations [Pont et al., 2012]. Mouse
    Ghrhr knockout Homozygosity for the Ghrhr(lit) knockout mutation (called little mouse) lowers plasma growth hormone levels, impairs growth and increases lonegevity about 20% [11371619]. Lit homozygous animals are smaller than normal mice [1270792] and their pituitary is defective in growth hormone and prolactin [978118]. Mouse +20
    Top3b knockout Homozygous disruption of Top3b results in a normal development but a shorter lifespan (by approximately 70%) accompanied by lesions in multiple organs in C57BL/6 [11331780]. Mouse -70
    Igf1r knockout Homozygous null mutation of Igf1r is lethal at birth [8402901]. Mice heterozygous for IGF1R live 26% longer. Female Igf1r(+/-) mice have 33% longer mean lifespan, whereas male mice exhibit an increase in mean lifespan of 16% (not statistically significant). Long-lived Igf1r+/- mice do not develop dwarfism, have normal energy metabolism, food and water intake, unaffected nutrient uptake, physical activity, glucose regulation, serum insulin and glucose, fertility and reproduction [12483226]. Heterozygous Igf1r mutants are more resistant to paraquat and mouse embryonic fibroblasts derived from them are more resistant to hydrogen peroxide [8402901]. Mouse +16 to 33
    Homozygous Prdx1 knockout Homozygous Prdx1 knockout mice have a lifespan significant shorter than +/+ and +/- littermates and develop severe haemolytic anaemia and several malignant cancers (starting at about 9 months of age) [12891360] Mouse
    Homozygous Shc1 knockout Homozygous Shc1 knockout mice have an 28% increase in mean lifespan [10580504]. p66shc-/- cells are more resistant to apoptosis induced by hydrogen peroxide and UV light. p66shc-/- mice aremore restante to oxidative stress induced by paraquat [10580504]. Mouse +28
    Bax knockout Inactivation of proapoptotic Bax extends fertile potential and minimized age-related health problems, including bone and muscle loss, excess fat deposition, alopecia, cataracts, deafness, increased anxiety, and selective attention deficit. Bax deficiency does not lead to an increase in tumor incidence. Despite the apparently increased quality of life of aging females lacing Bax, there is no significant differences in overall lifespan [17360389]. Mouse
    Klotho disruption Klotho disruption results in infertility and signs of premature ageing such as a short lifespan, arteriosclerosis, skin atrophy, osteoporosis, and emphysema. Klotho is highly expressed in brain and kidney [10631108]. The circulating form of Klotho binds to a cell-surface receptor and represses intracellular signals of insulin and IGF1. Perturbing insulin and IGF1 alleviates the aging-like phenotypes in Klotho-deficient mice [16123266]. kl/kl mice initially develop normally but exhibit growth retardation starting at 3-4 weeks of age. Their average lifespan is 61 days (none more than 100 days). These mice gradually become inactive, with reduced stride length, atrophic genital organs, thymus atrophy, arteriosclerosis (medial calcification and intimal thickening), ectopic calcification in arterial walls, osteroposis, skin atrophy, impaired maturation of gonadal cells, emphysema, reduced growth hormone-producing cells in the pituitary gland, slight hypercalcemia, and hyperphosphatemia [9363890]. kl/kl mice have decreased insulin production and increased insulin sensitivity [11016890]. Mouse
    Prop1 knockout Knockouts of Prop1 are dwarf (hence called the Ames dwarf mice) but live approximately 1 year longer than controls. Mean lifespan of males and females is extended by 49 and 68%, respectively Ames dwarf mice are small due to retarded post-natal growth and have primary pituitary deficiency consisting of the absence of, or extreme reduction in, anterior pituitary cells which produces growth hormone, prolactin and thyroid-stimulating hormone, and consequently a deficiency in these hormones. Levels of IGF1 is also extreme low in Ames dwarf mice [8900272]. Mouse +49 to +68
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    • 25 of 38 interventions
    Interventions are an extension of GenAge and GenDR.