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TIA-1 promotes FUNDC1-mediated mitophagy to protect against stress-induced cellular senescence

Authors
 Cha, Seongho  ;  Jung, Myeongwoo  ;  Tak, Hyosun  ;  Ryu, Seungyeon  ;  Han, Sukyoung  ;  Chae, Dongwoo  ;  Kim, Jiyoon  ;  Jeong, Seung Min  ;  Kim, Wook  ;  Lee, Eun Kyung 
Citation
 EXPERIMENTAL AND MOLECULAR MEDICINE, Vol.58(6) : 1940-1952, 2026-06 
Journal Title
EXPERIMENTAL AND MOLECULAR MEDICINE
ISSN
 1226-3613 
Issue Date
2026-06
MeSH
Cell Line ; Cellular Senescence* / genetics ; Humans ; Membrane Proteins* / genetics ; Membrane Proteins* / metabolism ; Mitochondria / metabolism ; Mitochondrial Proteins* / genetics ; Mitochondrial Proteins* / metabolism ; Mitophagy* ; Oxidative Stress ; T-Cell Intracellular Antigen-1* / genetics ; T-Cell Intracellular Antigen-1* / metabolism
Abstract
Mitochondrial dysfunction, characterized by reduced mitophagy, excessive mitochondrial elongation, and elevated reactive oxygen species production, is a hallmark of cellular senescence. However, the molecular mechanisms linking impairment of redox balance to mitophagy suppression during senescence remain poorly understood. In this study, we identified TIA-1, an RNA-binding protein, as a positive regulator of FUNDC1 expression, a key receptor for ubiquitin-independent mitophagy. Sodium butyrate and ultraviolet-B irradiation triggered oxidative stress-associated senescence in HaCaT cells, leading to reduced TIA-1 expression, decreased FUNDC1 levels, impaired mitophagy flux, excessive mitochondrial elongation, and upregulation of senescence markers. Conversely, ectopic expression of TIA-1 restored FUNDC1 levels, enhanced mitophagy, improved mitochondrial function, and reduced senescence marker expression. Ribonucleoprotein immunoprecipitation assays confirmed that TIA-1 directly interacts with FUNDC1 mRNA, and subsequent analyses indicated that TIA-1 enhances FUNDC1 expression primarily through translational control. Together, these findings establish TIA-1 as a pivotal regulator of mitochondrial homeostasis during cellular stress, acting through FUNDC1 to sustain mitophagy and limit senescence. Targeting TIA-1 may offer new strategies to mitigate mitochondrial dysfunction and restore redox balance in aging and age-related diseases.
Files in This Item:
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DOI
10.1038/s12276-026-01752-w
Appears in Collections:
1. College of Medicine (의과대학) > Dept. of Pharmacology (약리학교실) > 1. Journal Papers
Yonsei Authors
Chae, Dong Woo(채동우) ORCID logo https://orcid.org/0000-0002-7675-3821
URI
https://ir.ymlib.yonsei.ac.kr/handle/22282913/212930
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