AP2A1 modulates cell states between senescence and rejuvenation

返老还童 衰老 细胞生物学 生物 细胞衰老 遗传学 表型 基因
作者
Pirawan Chantachotikul,Shiyou Liu,Kana T. Furukawa,Shinji Deguchi
出处
期刊:Cellular Signalling [Elsevier BV]
卷期号:127: 111616-111616 被引量:5
标识
DOI:10.1016/j.cellsig.2025.111616
摘要

Aging proceeds with the accumulation of senescent cells in multiple organs. These cells exhibit increased size compared to young cells, which promotes further senescence and age-related diseases. Currently, the molecular mechanism behind the maintenance of such huge cell architecture undergoing senescence remains poorly understood. Here we focus on the reorganization of actin stress fibers induced upon replicative senescence in human fibroblasts, widely used as a senescent cell model. We identified, together with our previous proteomic study, that AP2A1 (alpha 1 adaptin subunit of the adaptor protein 2) is upregulated in senescent cells along the length of enlarged stress fibers. Knockdown of AP2A1 reversed senescence-associated phenotypes, exhibiting features of cellular rejuvenation, while its overexpression in young cells advanced senescence phenotypes. Similar functions of AP2A1 were identified in UV- or drug-induced senescence and were observed in epithelial cells as well. Furthermore, we found that AP2A1 is colocalized with integrin β1, and both proteins move linearly along stress fibers. With the observations that focal adhesions are enlarged in senescent cells and that this coincides with strengthened cell adhesion to the substrate, these results suggest that senescent cells maintain their large size by reinforcing their effective anchorage through integrin β1 translocation along stress fibers. This mechanism may work efficiently in senescent cells, compared with a case relying on random diffusion of integrin β1, given the enlarged cell size and resulting increase in travel time and distance for endocytosed vesicle transportation.
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