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Merck

Disruption of nucleocytoplasmic trafficking as a cellular senescence driver.

Experimental & molecular medicine (2021-07-01)
Ji-Hwan Park, Sung Jin Ryu, Byung Ju Kim, Hyun-Ji Cho, Chi Hyun Park, Hyo Jei Claudia Choi, Eun-Jin Jang, Eun Jae Yang, Jeong-A Hwang, Seung-Hwa Woo, Jun Hyung Lee, Ji Hwan Park, Kyung-Mi Choi, Young-Yon Kwon, Cheol-Koo Lee, Joon Tae Park, Sung Chun Cho, Yun-Il Lee, Sung Bae Lee, Jeong A Han, Kyung A Cho, Min-Sik Kim, Daehee Hwang, Young-Sam Lee, Sang Chul Park
要旨

Senescent cells exhibit a reduced response to intrinsic and extrinsic stimuli. This diminished reaction may be explained by the disrupted transmission of nuclear signals. However, this hypothesis requires more evidence before it can be accepted as a mechanism of cellular senescence. A proteomic analysis of the cytoplasmic and nuclear fractions obtained from young and senescent cells revealed disruption of nucleocytoplasmic trafficking (NCT) as an essential feature of replicative senescence (RS) at the global level. Blocking NCT either chemically or genetically induced the acquisition of an RS-like senescence phenotype, named nuclear barrier-induced senescence (NBIS). A transcriptome analysis revealed that, among various types of cellular senescence, NBIS exhibited a gene expression pattern most similar to that of RS. Core proteomic and transcriptomic patterns common to both RS and NBIS included upregulation of the endocytosis-lysosome network and downregulation of NCT in senescent cells, patterns also observed in an aging yeast model. These results imply coordinated aging-dependent reduction in the transmission of extrinsic signals to the nucleus and in the nucleus-to-cytoplasm supply of proteins/RNAs. We further showed that the aging-associated decrease in Sp1 transcription factor expression was critical for the downregulation of NCT. Our results suggest that NBIS is a modality of cellular senescence that may represent the nature of physiological aging in eukaryotes.

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Sigma-Aldrich
抗β-アクチン抗体, マウスモノクローナル, clone AC-15, purified from hybridoma cell culture
Sigma-Aldrich
Anti-53BP1 Antibody, clone BP13, clone BP13, Upstate®, from mouse