— | — | ENSRNOG00000044070 is transcriptional upregulated in the cerebral cortex at the age 28 months under different longevity conditions such as under dietary restriction (DR) as well as in feeding switch regimens that result in extended lifespan, like early age switch to DR as well as the reverse switch under the influence of the DR-mimetic α-lipoic acid (i.e. DR switched to ad libitum+ lipoic acid) [Shona et al. 2013]. | Norway rat |
— | — | ENSRNOG00000044316 is transcriptional downregulated in the cerebral cortex at the age 28 months under different longevity conditions such as under dietary restriction (DR) as well as in feeding switch regimens that result in extended lifespan, like early age switch to DR as well as the reverse switch under the influence of the DR-mimetic α-lipoic acid (i.e. DR switched to ad libitum+ lipoic acid) [Shona et al. 2013]. | Norway rat |
Mir98 | microRNA mir-98 | miR-98-3p is the only miRNA significantly differentially expressed (upregulated) under DR and LA (lipoic acid; a DR-mimetic) treatment. Across mouse, rat and human predicted targets of miR-98-3p include the glutamate receptors, calcium transporters, histones and histone acetyltransferase/deacetylases.
miR-89-3p is expressed at a low level and is highly conserved in rat, mouse, human and anplis lizard. Mir-98 precursor is located on the X-chromosome. In the rat, mouse and human genome it overlaps an E3 ubiquitin ligase HUWE which is involved in regulation of apoptosis, regulation of neural differentiation and proliferation, DNA damage repair [Shona et al. 2013].
miR-98 expression is significantly decreased in the adventitia and endomembrane ath different degrees in Goto-Kakizaki rat, a model of type 2 diabetes. miR-98 targets TRB2 which is increased in expression in this model of type 2 diabetes. TRB2 phosphorylates Akt [22012613].
The mouse ortholog of Mir98 may by associated with the germline [16766679]. | Norway rat |
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 |
mir-124 | — | Loss of mir-124 increases reactive oxygen species formation and accumulation of the aging marker lipofuscin, reduces whole body ATP levels and results in reduction in lifespan [23075628].
Supplementation of vitamin C normalizes the reduced median lifespan of mir-124 mutants [23075628].
The expression of the conserved mir-124 in whole wrn-1 mutants (which premature age) is significantly reduced [23075628]. | Nematode |
mir-58 | — | mir-58(n4640) mutation decreases the mean lifespan by 20% [22482727]. | Nematode |
mir-14 | mir-14 stem loop | Mutating mir-14 decreases lifespan in both sexes. mir-14 reduces the mean and maximum lifespan of females by 55 and 36%, respectively, while those of males is reduced by 29 and 21%, respectively [12725740].
| Fruit fly |
mir-239 | — | Mutating mir-239 increases mean and maximum lifespan by 12 and 36%, respectively, whereas overexpressing mir-239 decreases mean and maximum lifespan by 13 and 17 - 33%, respectively [21129974]. | Nematode |
mir-246 | — | Mutating mir-246 decreases mean and maximum lifespan by 12%, while its overexpression increases mean and maximum lifespan by 6 and 5 - 14%, respectively [21129974]. | Nematode |
mir-238 | — | Mutating mir-238 decreases mean and maximum lifespan by 18 and 24% [21129974]. mir-238(n4112) mutation decreases mean lifespan by 20% [22482727]. | Nematode |
mir-71 | — | Loss and gain-of-function of mir-71 decreases and increases lifespan, respectively [21129974]. mir-71 mutants have a reduced lifespan with 40% decrease in mean lifespan, while extra copies of mir-71 extend the lifespan with an increase in lifespan by 15 - 25% [22482727],
Loss of mir-71 function suppresses the long lifespan of glp-1(e2141) mutants [22482727],
During adulthood mir-71 is strongly expressed in the intestine, body wall muscles and neurons. mir-71 is upregulated in aging adults [22482727], | Nematode |
MIR146B | microRNA 146b | miR-146a/b is significantly elevated during senescence as a compensatory response to restrain inflammation via the suppression of IL-6 and IL-8 secretion and downregulation of IRAK1 (component of IL-1 receptor signaling). Ectopic expression of miR-146a/b in primary fibroblasts suppresses IL-6 and IL-8 secretion and downregulation of IRAK1 [20148189]. | Human |
MIR146A | microRNA 146a | miR-146a/b is significantly elevated during senescence as a compensatory response to restrain inflammation via the suppression of IL-6 and IL-8 secretion and downregulation of IRAK1 (component of IL-1 receptor signaling). Ectopic expression of miR-146a/b in primary fibroblasts suppresses IL-6 and IL-8 secretion and downregulation of IRAK1 [20148189]. | Human |
MIR373 | microRNA 373 | miR-373 expression is able to bypass RAS-induced senescence in presence of wild-type p53 [16564011]. | Human |
MIR372 | microRNA 372 | miR-372 expression is able to bypass RAS-induced senescence in presence of wild-type p53 [16564011]. | Human |
MIR217 | microRNA 217 | MIR217 (alias hsa-miR-217) is significantly upregulated in senescent human mesenchymal stem cells (hMSCs) when compared to early passage hMSC, but overall had very low expression levels [18493317]. | Human |
hsa-let-7f | — | hsa-let-7f is significantly upregulated in senescent human mesenchymal stem cells (hMSCs) when compared to early passage hMSC [18493317]. | Human |
MIR499 | microRNA-449 | hsa-miR-499 is significantly upregulated in senescent human mesenchymal stem cells (hMSCs) when compared to early passage hMSC [18493317]. | Human |
MIRC29 | microRNA 29c | hsa-miR-29c is significantly upregulated in senescent human mesenchymal stem cells (hMSCs) when compared to early passage hMSC [18493317]. | Human |
MIR369 | microRNA 369 | hsa-miR-369-5p is significantly upregulated in senescent human mesenchymal stem cells (hMSCs) when compared to early passage hMSC [18493317]. | Human |
MIR371A | microRNA 371a | hsa-miR-371 is significantly upregulated in senescent human mesenchymal stem cells (hMSCs) when compared to early passage hMSC [18493317]. | Human |
MIR20A | microRNA 20a | Overexpression of MiR-20a in mouse embryonic fibroblasts induces senescence by lowering Lrf (a transcriptional repressor of the Mdm2 inhibitor p19ARF [15662416; 9529248]) protein levels and in turn increasing p19ARF levels [18596985]. | House mouse |
MIR34C | microRNA 34c | — | Human |
MIR34B | microRNA 34b | mir-34 family, particularly miR-34a, as downstream effectors of p53 involved in cell cycle [17656095], leads to cell cycle arrest, increased expression of Beta-galactosidase [17554337] and downregulation of E3F family target genes [17875987]. MDM2 inhibiting drug Nutlin-3, leads to p53 activation, induced up-regulation of primarily miR-34a and later miR-34b and miR-34c [18451145]. | Human |
MIR34A | microRNA 34a | mir-34 family, particularly miR-34a, as downstream effectors of p53 involved in cell cycle [17656095], leads to cell cycle arrest, increased expression of Beta-galactosidase [17554337] and downregulation of E3F family target genes [17875987]. MDM2 inhibiting drug Nutlin-3, leads to p53 activation, induced up-regulation of primarily miR-34a and later miR-34b and miR-34c [18451145]. | Human |