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Implications of time-series gene expression profiles of replicative senescence


ABSTRACT: Although senescence has long been implicated in aging-associated pathologies, it is not clearly understood how senescent cells are linked to these diseases. To address this knowledge gap, we profiled cellular senescence phenotypes and mRNA expression patterns during replicative senescence in human diploid fibroblasts. We identified a sequential order of gain-of-senescence phenotypes: low levels of reactive oxygen species, cell mass/size increases with delayed cell growth, high levels of reactive oxygen species with increases in senescence-associated M-NM-2-galactosidase activity (SA-M-NM-2-gal), and high levels of SA-M-NM-2-gal activity. Gene expression profiling revealed four distinct modules in which genes were prominently expressed at certain stages of senescence, allowing us to divide the process into four stages: early, middle, advanced, and very advanced. Interestingly, the gene expression modules governing each stage supported the development of the associated senescence phenotypes. Senescence-associated secretory phenotype-related genes also displayed a stage-specific expression pattern with three unique features during senescence: differential expression of interleukin isoforms, differential expression of interleukins and their receptors, and differential expression of matrix metalloproteinases and their inhibitory proteins. The analysis of time series gene expression level during replicaive senescence.

ORGANISM(S): Homo sapiens

SUBMITTER: Hyun Goo Woo 

PROVIDER: E-GEOD-41714 | biostudies-arrayexpress |

REPOSITORIES: biostudies-arrayexpress

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Implications of time-series gene expression profiles of replicative senescence.

Kim You-Mie YM   Byun Hae-Ok HO   Jee Byul A BA   Cho Hyunwoo H   Seo Yong-Hak YH   Kim You-Sun YS   Park Min Hi MH   Chung Hae-Young HY   Woo Hyun Goo HG   Yoon Gyesoon G  

Aging cell 20130507 4


Although senescence has long been implicated in aging-associated pathologies, it is not clearly understood how senescent cells are linked to these diseases. To address this knowledge gap, we profiled cellular senescence phenotypes and mRNA expression patterns during replicative senescence in human diploid fibroblasts. We identified a sequential order of gain-of-senescence phenotypes: low levels of reactive oxygen species, cell mass/size increases with delayed cell growth, high levels of reactive  ...[more]

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