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
    Mir669c microRNA 669c Expression increases with age in mouse liver. The miRNA downregulates detoxification and regeneration genes, which may contribute to aging [18561983]. House mouse
    miR-214 microRNA 214 Expression increases with age in mouse liver. The miRNA downregulates detoxification and regeneration genes, which may contribute to aging [18561983]. House mouse
    tert telomerase reverse transcriptase First-generation tert(-/-) zebrafish die prematurely with shorter telomeres. tert(-/-) fish develop degenerative phenotypes, including premature infertility, gastrointestinal atrophy, and sarcopenia. tert(-/-) mutants have impaired cell proliferation, accumulation of DNA damage markers, and a p53 response leading to early apoptosis, followed by accumulation of senescence cells. Apoptosis is primarily observed in the proliferative niche and germ cells. Cell proliferation, but not apoptosis, is rescued in tp53(-/-)tert(-/-) mutants, underscoring p53 as mediator of telomerase deficiency and consequent telomere instability [http://denigma.de/url/3p]. Zebrafish
    MIR21 MIRN21; hsa-mir-21; miR-21; miRNA21 MIR21 is the most highly expressed microRNA gene in octogenarians and centenarians. MIR21 expression is higher under cardiovascular diseases and lower in centenarian offspring. MIR21 is correlated with C-reactive protein and fibrinogen levels. TGF-βR2 mRNA, a MIR21 target, exhibits the highest expression in leukocytes form a subset of octogenarians. MIR-21 may be a biomarker of inflammation [23041385]. Human
    GHR growth hormone receptor Individuals with low GH/IGF-I signaling due to a defect in the growth hormone receptor (GHR) are protected against cancer. Among the human individuals with a defect in GHR no cancer deaths were observed. GHR deficiency does not appear to extend lifespan because it is associated with increased risk of heart disease [21325617]. Variants in GHR were found to be associated with longevity [19489743]. Human
    TSHR thyroid stimulating hormone receptor Two single nucleotide in the TSHR were associated with increased TSH in both centenarians and their offspring [19837933].TSHR was found to be associated with longevity [19837933]. TSHR was not found to be associated with longevity [19837933]. Human
    WRN Werner syndrome, RecQ helicase-like Mutation in WRN causes Werner Syndrome which characteristics includes prematurely aged facies, scleroderma-like skin changes, cataracts, arteriosclerosis, subcutaneous calcification, and diabetes mellitus [McKusick et al. 1963; 5327241]. Inheritance is autosomal recessive and malignancy is frequent. THe frequency is 3 per million individuals in Japan [7460386]. Cells from a Werner heterozygote exit the cell cycle at a faster rate than do normal cells [8265666]. Loss of WRN promoter aberrant mitotic recombination [11316787]. The single nucleotide polymorphism rs1800392 in WRN has been associated with exceptional longevity in a plethora of genetic signatures [22279548]. WRN was found to be associated with longevity [10069711; 20855428; 20855428; 20855428 ;17903295; 22406557; 16405962; 16405962; 16405962; 20855428; 20855428; 20855428; 22279548]. WRN was found to be associated with longevity [24244950]. Human
    Cdkn2a cyclin-dependent kinase inhibitor 2A Cdkn2a encodes different transcripts involved mostly in cell cycle regulation and cellular senescence [12882406], but it can also act as a tumor suppressor. Its expression level increase with age in rodents [15520862]. super-Ink4a/Arf mice carrying a transgenic copy of a large genomic segment containing an intact and complete copy of the Cdkn2a (a.k.a. Ink4a/Arf) gene are significantly protected from cancer and had no indication of accelerated aging. Cells derived from super-Ink4a/Arf mice have increased resistance to in vitro immortalization and oncogenic transformation [15520276]. Loss of Cdkn2a in mice results in tumour susceptibility [11544530]. Mice deficient in Cdkn2a have smaller age-related decline in self-renewal potential as this process is associated with increasing levels of Cdkn2a [16957738]. Increased levels of p16 are associated with aging (Krishnamurthy et al., 2006; Molofsky et al., 2006) and a bona fide marker of cellular senescence (Collado et al., 2007). p16INK4a accumulates in many tissues as a function of advancing age (Krishnamurthy et al., 2004; Nielsen et al., 1999; Zindy et al., 1997) and is an effector of senescence (Campisi, 2003; Park et al., 2004), p16INK4a is a potent inhibitor of proliferative kinase Cdk4 (Lowe and Sherr, 2003) which is essential for pancreatic ?-cell proliferation in adult mammals (Rane et al., 1999; Tsutsui et al., 1999). p16INK4a constrains islet proliferation and regeneration in an age-dependent manner. Expression of the p16INK4a transcript is enriched in purified islets compared with the exocrine pancreas and islet-specific expression of p16INK4a increases markedly with aging (Krishnamurthy et al., 2006). Aging in mammals is associated with reduced regenerative capacity in tissues that contain stem cells (Chien and Karsenty, 2005) which is probably partially caused by senescence of progenitors with age (Campisi, 2005; Lombard et al., 2005). Progenitor proliferation in subventricular zone and neurogenesis in the olfactory bulb as well as multipotent progenitor frequency and self-renewal potential, all decline with ageing the mouse forebrain. The decline in progenitor frequency and function correlate with increased expression of p16INK4a (Molofsky et al., 2006). Aging p16INK4a-deficient mice exhibit a significantly smaller decline in subventricular zone proliferation, olfactory bulb neurogenesis and the frequency and self-renewal potential of multipotent progenitors (Molofsky et al., 2006). p16 expression in skin cells is significantly lower the the group that has a strong family history of longevity. As such a younger biological age associates with lower levels of p16INKfa positive cells [22612594]. p16 expression increases exponentially with age. Expression of p16INK4a with age does not predict cancer development. p16INK4a activation is a characteristic of all emerging cancers [http://denigma.de/url/3n]. House mouse
    mir-34 mir-34 loss triggers a gene expression profile of accelerated brain aging, late-onset brain degeneration and catastrophic decline in survival, while mir-34 upregulation extends median lifespan and mitigated neurodegeneration induced by polyglutamine. Fruit fly
    GCN4 Transcriptional activator of amino acid biosynthetic genes in response to amino acid starvation; expression is tightly regulated at both the transcriptional and translational levels Deletion of GCN4 increases the replicative lifespan by 10% in the alpha strain [19030232]. GCN4 deletion decreases the lifespan in the alpha and a strain [20657825]. The chronological lifespan of GCN4 deletion is strongly decreased in the a strain [20421943]. Budding yeast
    • 10 factors
    Factors are an extension of GenAge and GenDR.

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