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Mitoribosomal Deregulation Drives Senescence via TPP1-Mediated Telomere Deprotection

Authors
Min, S | Kwon, SM | Hong, J | Lee, YK  | Park, TJ  | Lim, SB  | Yoon, G
Citation
Cells, 11(13). : 2079-2079, 2022
Journal Title
Cells
ISSN
2073-4409
Abstract
While mitochondrial bioenergetic deregulation has long been implicated in cellular senescence, its mechanistic involvement remains unclear. By leveraging diverse mitochondria-related gene expression profiles derived from two different cellular senescence models of human diploid fibroblasts, we found that the expression of mitoribosomal proteins (MRPs) was generally decreased during the early-to-middle transition prior to the exhibition of noticeable SA-beta-gal activity. Suppressed expression patterns of the identified senescence-associated MRP signatures (SA-MRPs) were validated in aged human cells and rat and mouse skin tissues and in aging mouse fibroblasts at single-cell resolution. TIN2- and POT1-interaction protein (TPP1) was concurrently suppressed, which induced senescence, accompanied by telomere DNA damage. Lastly, we show that SA-MRP deregulation could be a potential upstream regulator of TPP1 suppression. Our results indicate that mitoribosomal deregulation could represent an early event initiating mitochondrial dysfunction and serve as a primary driver of cellular senescence and an upstream regulator of shelterin-mediated telomere deprotection.
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MeSH

DOI
10.3390/cells11132079
PMID
35805162
Appears in Collections:
Journal Papers > Research Organization > Inflamm-aging Translational Research Center
Journal Papers > School of Medicine / Graduate School of Medicine > Biochemistry & Molecular Biology
Ajou Authors
박, 태준  |  윤, 계순  |  이, 영경  |  임, 수빈
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