4.8 Article

microRNA-449a reduces growth hormone-stimulated senescent cell burden through PI3K-mTOR signaling

Publisher

NATL ACAD SCIENCES
DOI: 10.1073/pnas.2213207120

Keywords

senescence; miR-449a; longevity; growth hormone; adipose

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Cellular senescence, implicated in various age-related disorders, can be attenuated by investigating methods to reduce the accumulation of senescent cells. miR-449a is down-regulated with age in normal mice but maintained in long-living GH-deficient df/df mice, showing potential as a serotherapeutic. GH downregulates miR-449a expression and accelerates senescence, while miR-449a upregulation reduces senescence through targeted reduction of senescence-associated genes and signaling pathways.
Cellular senescence, a hallmark of aging, has been implicated in the pathogenesis of many major age-related disorders, including neurodegeneration, atherosclerosis, and metabolic disease. Therefore, investigating novel methods to reduce or delay the accumulation of senescent cells during aging may attenuate age-related pathologies. microRNA-449a-5p (miR-449a) is a small, noncoding RNA down- regulated with age in normal mice but maintained in long-living growth hormone (GH)-deficient Ames Dwarf (df/df) mice. We found increased fibroadipogenic precursor cells, adipose-derived stem cells, and miR-449a levels in visceral adipose tissue of long-living df/df mice. Gene target analysis and our functional study with miR-449a-5p have revealed its potential as a serotherapeutic. Here, we test the hypothesis that miR-449a reduces cellular senescence by targeting senescence-associated genes induced in response to strong mitogenic signals and other damaging stimuli. We demonstrated that GH downregulates miR-449a expression and accelerates senescence while miR-449a upregulation using mimetics reduces senescence, primarily through targeted reduction of p16Ink4a, p21Cip1, and the PI3K-mTOR signaling pathway. Our results demonstrate that miR-449a is important in modulating key signaling pathways that control cellular senescence and the progression of age-related pathologies.

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